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ORNAMENTAL BRICKWORK.

.No. 43, St. ﬁlartin‘s Lane, London.

A .RI].D[J[]DYAT,1‘II))" TIi/tll’l’lﬂ/L'

ox Tmé MANIYFACTURE 0F

BRICKS AND TILES

CONTAINING AN OUTLINE OF THE

1’]? INK’IP LICS’ 0 F B I? I (711711;! KIN/l

Jh’ EDWARD POBSON, A.I.C.E., Mil-1A.

.\I"I'Imn (IF “THE ART OF BUILDING,” “MASONRY AN!) S’l‘().\‘I~Z-C1"l"l‘lNu.”
“l~‘()l7.\'l).\’l‘l().\‘S .\.\'n ('(Ixrmc'rlc wmzx,” l-l’l‘(‘.., l~1’l‘(‘.

REVISED AND CORRECT/CD BY CHARLES TOJILINS'OX. F.R.S.
EE‘IIHI numerous Blush'ntimw
NINTH EDITION

\VI'I‘H ADDITIONS AND THE PRICES CORRECTED TO DATE

  
  

OF THE

 

WI?“ .

UNIVERSITY %

CALIECORN‘A‘
LONDON

CROSBY LOCKWOOD AND SON
7, STATIONERS’ HALL—COURT. LUDGATE HILL
I’ 1893‘;

 

 

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i. X”

THE AUTHOR’S PREFACE.

—-—+.q

THE preparation of this little work has necessarily ex
tended over a considerable period of time, and, although
our limits preclude anything like an attempt at a com-
plete view of the principles and practice of Brick-'
making, it will be found to contain much practical
information which has never yet been published, and
descriptions of processes which are little known be-
yond the localities where they are practised. The
Whole'of the illustrations have been drawn expressly
for the work, and the descriptions of tools and pro-
cesses have been written from personal observation,
no dependence having been placed on verbal descrip-
tion, even by experienced workmen. Working brick- ‘
makers are mostly illiterate men, unable to describe
correctly their own operations, and still less to explain
their meaning. I have therefore considered it necessary
to have every process here described carefully watched
throughout, either by myself or by some one on whose
accuracy of observation I could place dependence.

In the course of last autumn I drew up several papers
of questions, embracing a variety of points on which it
was found difﬁcult to obtain correct information, but
which were distributed amongst those of my friends
Who were likely to have . opportunities of ascertaining.

what was required.
6

 

iv THE AUTHOR’S PREFACE.

Many of these papers in course of time were returned,
accompanied by valuable details, and I have to express
my thanks and obligations to many gentlemen per-
sonally unknown to me for the assistance thus afforded.
Amongst those from whom I have received valuable
assistance during the progress of the work, I may
especially mention the names of Mr. Arthur Aikin ;
Mr. John Lees Brown, of Lichﬁeld ; Mr. IVilliam
Booker, of Nottingham; Mr. Richard Prosser, of Bir-
mingham; and Mr. Frederick Ransome, of Ipswich.

Mr. Richard Prosser has kindly contributed a valuable
account of the practice of Brickmaking in Stafford-
shire, which will be read with. much interest, and it Will
be worth the reader’s while to compare the processes
described in this chapter with those made use of in the
neighbourhood of Nottingham, described in Chapter III.

The details given in Appendix I. respecting the manu-
facture of Suffolk bricks were kindly furnished by Mr.
Frederick Ransome, to whom I am also indebted for
drawings of a Suffolk kiln, which were intended by
him as a contribution to the work, but which, un-
fortunately, were committed to the post for transmis-
sion, and never reached their destination.

In collecting the information requisite for writing the
accounts of Brickmaking and Tilemaking as practised
in the neighbourhood of London, I am under great obli-
gations to Mr. Adams and Mr. Randell, of the Maiden
Lane Tileries, and to Mr. Samuel Pocock, of the Cale-
donian Fields, Islington, for the kindness with which
they afforded me facilities for inspecting and sketching
their works, and for the liberal manner in which they
furnished me with details of prices and quantities.

Although much time and pains have been bestowed

upon the work, there IS so much difﬁculty 1n writing a

THE AUTHOR’S PREFACE. v

strictly accurate account, even of a simple operation, that
I cannot hope that it is perfectly free from errors; but I
trust that they are only of a trivial nature, and I shall
be greatly obliged to any reade1 who will point out any
omissions or nus-statements, that I may be able to
correct them in a future edition.

There has long been a want of rudimentary treatises
on the Materials of Construction, published in a cheap
form, and written in a simple and practical style,
divested of scientiﬁc technicalities, which render such
books nearly useless to those by whom they are most
needed. I venture to express a hope that this work may
be of service in supplying this deﬁciency with regard to
one very important class of building materials. At the
same time it must be observed that the Science of Brick-
making is as yet untrodden ground, comparatively little
being known of the manner in which different sub-
stances mutually act upon each other when exposed to
furnace heat, or of the relative proportions of silica,
alumina, lime, and other usual ingredients of brick-
earths, which are best calculated to produce a sound,
well-shaped brick, of a pleasing colour. All that I have
attempted here, therefore, is to give a clear description
of the actual manufacture of bricks and tiles, and to
explain the leading differences which exist in the manner
of conducting the several operations of Brickmaking in
various parts of this country. How far I have succeeded
in this attempt the reader alone can determine.

PREFACE TO THE FOURTH EDITION.

__..._._.

THIS work was revised by Professor Tomlinson in 1863,
and some matter become useless by time and the alterao
tion of the Excise laws judiciously expunged. A chapter
was at the same time appended on making bricks by
machinery, but since that period many improvements
and new inventions have necessitated a supplemental
chapter, in which the editor has endeavoured to give
an outline of that part of the subject reaching to the
present day. He has also added a sketch of that which
was properly called by the author of the work the Science
of Brickmaking. A few notes, revising the text gene-
rally, will be found in the Appendix, and to which the
alphabetical index now given affords easy reference.

Though small and elementary, this work may pro-
bably claim to be the most complete upon its subject
in the English language.

CONTENTS.

MIL—The Numbeis refer to the Paragraﬁlzs and not to ﬂee pages, except
where otherwise stated.

INTRODUCTION. (Pages 1—12.)

I. Early history of the art would not add to our practical know-
ledge. II. Burnt brick used in the building of the Tower of Babel; in
the walls of Babylon; both burnt and sun-dried bricks used in ancient
Egypt. III. Bricks extensively used by the Romans ; the art of brick-
making abandoned at the decline of the Roman Empire; subsequently
revived in the middle ages. IV. Early and extensive use of bricks in
Holland and the Netherlands. V. Brickmaking introduced into England
by the Romans; arrived at great perfection at the time of Henry VIII.;
only used for large mansions in the time of Queen Elizabeth. VI. Brick
generally introduced as a building material in London after the great ﬁre
of 1666; many ﬁne specimens of brickwork still extant, executed at the
beginning of the 18th century. VII. Enumeration of the duties suc-
cessively imposed upon bricks and tiles; abolition of the distinction
between common and dressed bricks, by 2nd and 3rd Vict. c. 24. VIII.
The new act a great boon to the public. IX. Number of bricks made
yearly in Great Britain. X. Differences in the processes employed in
brickmaking in diﬁ‘erents parts of England. XI. Average strength of
various kinds of bricks. XII. Comparison between the crushing strength
of hand-made and machine-made bricks.

CHAPTER I.

GENERAL PRINCIPLES OF THE MANUFACTURE OF BRICKS
AND TILES.

I. BRICKS. (Page 12.)

1. Classiﬁcation of the various operations of the bnckmaker.

PREPARATION OF BRICK-EARTH. (Pages 12—25.)

2. Enumeration of qualities to be aimed at in making bricks. 3. Sue-
cess depends principally on the selection and preparation of brickaearth.
4. Brick—earths may be divided into three principal classes; viz., pure
clays, marls, and loams ; few earths ﬁt for brickmaking Without some

63

viii CONTENTS.

mixture. 5. Alumina the principal ingredient in brick-earth; cracks
in drying, after being moulded, and will not stand ﬁring; necessary to
add sand to strong clays, to diminish their contraction; lime and sifted
oreeze used near London for the same purpose. 6. Composition of ﬁre
clay; mode of making the Dinas ﬁre brick. 7. Fire clay generally
mixed with burnt clay, broken crucibles, &c. 8. Enumeration of prin-
cipal localities where ﬁre bricks are made; relative cost of Windsor,
Welch, and Stourbridge ﬁre bricks. 9. Bricks made of refractory clay,
baked rather than burnt. 10. Composition of fusible earths. 11. London
bricks not made of clay, but of loams and marls. 12. Bricks may be
divided into two classes, baked and burnt; difﬁculties in treating the
fusible earths. 13. Calling bricks made from sandy loams, either natural
or artiﬁcial. 14. Colour depends not on the natural colour of the clay,
but upon its chemical composition. 15. Bricks might be made of various
colours by the employment of metallic oxides. 16. Floating bricks.
17. Unsoillng. 18. Clay digging and weathering. 19. Stones must be
picked out by hand; injurious effect of limestone in the clay. 20. Grind-
ing. 21. Washing. 22. Cutters made of washed earth mixed with sand.
23. Sufﬁcient attention not generally paid to the preparation of brick-
ea .

TEMPERENG. (Pages 25—28.)

24. Object of tempering; is effected invarious ways; treading, grind-
ing, pugging, 25. Brickmaking on the Nottingham and Grantham
railway. 26. Use of the pug-mill.

MOULDIXG. (Pages 28—35.)

27. Slop moulding and pallet moulding. 28. Description of slop
moulding. 29. Description of pallet moulding. 30. Description of
moulding table. 31. Brick moulds, their varieties. 32. Difference in
rate of production per stool, according to the process employed. 33. Slop
and pallet moulding sometimes combined. '34. Moulding by machinery.
35. Disadvantages of dense bricks. 36. Method invented by Mr. Prosser
of moulding in the dry state. 37. Defects of pressed bricks. 38. Dif-
ﬁculties in making moulded bricks, arising from warping in the kiln.
39. Dimensions of bricks. 40. Bricks made of various shapes in country
yards, but not generally in London. 41. Bricks with hollow beds.
42. Ventilating bricks.

DRYING. (Pages 35—38.)

43. Slop-moulded bricks dried on ﬂats, and hacked under cover.
44. Bricks hacked in the open air where brickmaking is conducted on a
large scale. 45. Clamp bricks hacked at once, and not dried on ﬂats.
46. Recapitulation of differences between slop moulding and pallet
moulding. 47. Different clays require different treatment.

BURNING. (Pages 38—42.)

48. Bricks burnt in clamps and in kilns. 49. Peculiarities of clamp
burning. 50. Three classes of kilns. 51. Management of a kiln.
.52. Impossible in a. rudimentary treatise to describe all the processes
is. use '

CONTENTS. 1X

II. TILES. (Pages 42—47.)

53. Differences in the manufacture of bricks and tiles. 54. Three
classes of tiles, viz., paving tiles, rooﬁng tiles, and draining tiles. 55.
Business of a tilery includes the making of pottery. 56. Tiles burnt in
the country together with bricks ; in London in separate kilns. 57. Drain-
ing-tiles principally moulded by machinery. 58. Importance of making
drain tiles a home manufacture. 59. Concluding observations.

\

CHAPTER II.

ON THE MANUFACTURE OF BRICKS AND TILES IN
HOLLAND. BY HYDE CLARKE, 0.13.

I. BRICKS. (Pages 47—48.)

Bricks extenswely used in Holland—Dutch clinkers made at Moor,
near Gouda. —Materials for making them;—river slime and sand;
localities from whence obtained—For Flemish bricks the sand is brought
from the river Scheldt.—The slime and sand are mixed and kneaded
together by treading—Dimensions of paving bricks and Dutch c1inks.—
House bricks and tiles made at Utrecht from brick-earth found in the
neighbourhood—Dimensions of house bricks.

II. BRICK-KILNS. (Pages 48—51.)

Sometimes made to burn upwards of a million of bricks—Fire holes
left in the side walls—Doorway made in the breadth of the kiln—Sheds
erected on each side of the kiln to shelter the ﬁres—Mode of setting the
kiln.—Mode of ﬁring.

III. TILES. (Page 52.)

Varieties of tiles made in Holland—Clay ground in a pug-mill.—
Kneaded by women before mouldin .—Two moulders, viz., a rough
moulder and a ﬁnisher.—Tiles dried ﬁrst in sheds and afterwards in the
sum—Moulding of ﬂat paving tiles—Iron moulds used in Switzerland.

IV. TILE-KILNS. (Pages 53—55.)

Tiles burnt in covered kilns with arched furnaces—Setting—Burn—
ing.-——Cooling.—Modc of giving a grey colour.—Glazing.—Utrecht the
principal seat of the tile manufacture—Gouda celebrated for pottery and
thaeCCo-pipes.

X CONTENTS.

CHAPTER III.

BRICKMAKING AS PRACTISED AT NOTTINGHAM.
(Pages 55—59.)

1. Peculiarities in manufacture of bricks near Nottingham. 2. Use
of brass moulds not conﬁned to Nottingham. 3. Object of crushing the
brick-earth between rollers. 4. Advantages and disadvantages of the
use of rollers. 5. Description of brickmaking at Nottingham applies,
with slight variations, to the practice of the neighbouring counties.
6. Brick-earth from the marls of the new red sandstone; abounds With
layers of skerry and veins of gypsum. 7. Colour of Nottingham bricks.
8. Common bricks made without picking the clay. 9. Preparation of
clay for making front bricks. 10. Manufacture of rubbers. 11. Clay
at Nottingham not generally suited for making rooﬁng tiles. 12. Size
of old and modern bricks.

GENERAL ARRANGEMENT or A BRICKWORK.
(Pages 59—80.)

13. Locality of existing yards. 14. Rental and cost of clay. 15. Ar-
rangement of buildings. 16. Description of clay-mill. 17. Addition of
a second set of rollers a great improvement. 18. Reference to engravings
of clay-mill; mode of boxing up the machinery. 19. Improvement to
conceal machinery. 20. Duty performed. 21. Length of time a clay-
mill will remain in working condition. 22. Description of Wash-mill.
23. The Pug-mill not used at Nottingham. 24. Moulding sand. 25. Mould-
ing table, description of. 26. Brie/s mould, description of. 27. Use of
copper moulds conﬁned to small articles. 28. Mould placed on the
moulding table and not upon a stock-board. 29. Plane, description of.
30. The Flats, how prepared; size of. 31. The Hotel, description of;
sometimes provided with ﬂues. 32. Best bricks dried wholly under cover
in ﬂued hovels. 33. The Clapper, description of ; use of. 34. Dressing
bench and dresser. 35. JlIachinerg for pressing brie/cs; points to be
attained in making machinery. 36. Machine-pressed bricks cheaper than
those dressed by hand. 37. Kiln, detailed description of. 38. Different
mode of constructing the walls. 39. Comparison of the two methﬁds.
40. Reference to engravings. 41. Steps tothe tops of the kilns. 42. Sizes
of kilns. 43. Duration of kilns.

Pnocnss or BRICKMAKING. (Pages 80—87.)

44. Clay digging. 45. Tempering. 46. Cost of. 47. Moulding, descrip-
tion of process. 48. Drying; laying on ﬂats; hacking. 49. Time
that should be allowed for drying. 50. Cost of moulding and drying.
51. Pressed brie/cs. 52. Polished bricks. 53. Size of brick-moulds.
54. Rate of production. 55. Burning; management of the ﬁring.
56. Cost of fuel. 57. Effect of the ﬁre upon the colour of the bricks.
58. Cost of setting and drawing the kiln. 59. Cost of labour in ﬁring.
60. Enumeration of the varieties of brickware manufactured at Not-
‘ingham.

CONTENTS. xi

COST OF MANUFACTURE. (Pages 87—94.)

61. Land and brick-earth; difﬁculty of estimating rental ; cost of clay.
62. Buildings and machinery; difﬁculty of ascertaining best relative
sizes of working ﬂoors, hovels, and kilns. 63. Approximate estimate of
extent of buildings and plant required for a weekly production of 46,800.
64. Additional buildings required in a yard, where all kinds of briekware
are made. 65. Enumeration of tools required. 66. Labour, how paid
for. 67. Summary of cost of production. 68. Relative value of dif-
ferent qualities of bricks. 69. Reference. to illustrations, ﬁgs. 1 to 18.

CHAPTER IV.

BRICKMAKING AS PRACTISED IN THE STAFFORDSHIRE
POTTERIES. BY R. PROSSER, C.E.

BRICKS. (Pages 95—96.)

1. Bricks; enumeration of kinds of brick manufactured. 2. Drab bricks
chieﬂy used for furnace work. 3. Tiles. 4. Clay. 5. Names of strata
in the pottery district. 6. Two examples given of the process of brick
and tile making.

FIRST EXAMPLE—BRICKMAKING. (Pages 97—101.)

7. Buildings and plant. 8. Rates of production. 9. Tampering. 10.
Moulding. 11. Drying. 12. Loss of weight whilst drying. 13. Burn-
ing. 14. Cost of manufacture. 15. Rental.

DESCRIPTION or ILLUSTRATIONS. (Pages 102—105.)

' 16. Clay-mill. 17. Moulding table. 18. Brick mould. 19. The oven
or cupola.
SECOND EXAMPLE—TILE-MAKING. (Pages 105—111.)

20. Enumeration of articles made at Basford. 21. Weathering and
tempering. 22. Moulding. 23. Drying. 24. The Set. 25. Quarries and
Dust Bricks. 26. Drain tiles. 27. Tile mac/zines. 28. Firing; detailed
description of. 29. Selling prices of different articles.

DESCRIPTION or ILLUSTRATIONS. (Pages 111—117.)

30. Moulding bench. 31. Mode of drying tiles. 32. Tile-block and
horse. 33. Mode of setting lower part of oven. 34. Mode of setting
upper part of even. 35. Desirability of improving the mode of conduct-
ing the manufacture of bricks. 36. Expense of carriage. 37. Analysis
of clays, &c.

xii CONTENTS.

BRICKMAKING ON THE SOUTH STAFFORDSHIRE RAILWAY.
(Pages 117—119.)
38. Bricks made for this line by Mr. George Brown, of Walsall Wood.
—Material not clay, but marl._Description of strata.—Description of
processes employed—Cost Of bricks at the kiln. '

CHAPTER V.

BRICKMAKING IN THE VICINITY OF LONDON.
(Page 119.)

1. Subject divided into three heads.

I. MATERIALS AND PLANT. (Pages 119—138.)

2. Brick-earth divided into three qualities. 3. Strong clay. 4. Loam.
5. Malm. 6. Different modes of preparation. 7. Object of adding chalk.
8. Soil. 9. Sand. 10. General arrangement of aBre’ehworh. 11. Chalk
and Clay Mills. 12. The Pug-mill. 13. The Cuehhold. 14. The Mould-
ing Stool. 15. The Brick rlfoald. 16. The Stools-board. 17. The Strike
and Pallets. 18. The Back Barrow. 19. The Hack Ground.

II. PROCESS OF MANUFACTURE. (Pages 138—158.)

20. Clay digging. 21. Quantity Of clay required per 1,000. 22.
Malining. 23. Sailing. 24. Tempering. 25. Pegging. 26. Moulding.
27. Hacking. 28. Clamping, requires skill. 29. General principles of.
30. Foundation. 31. Upright. 32. Necks. 33. Firing. 34. Breeze.
35. Proportion required depends on the nature of the clay. 36. Time
allowed for burning. 37. Upright and Outside. 38. Variations in the
mode of clamping. 39. Table of the qualities and prices of bricks made
for the London market. 40. Briehmaking at Cheshnnt. 41. Brick-
making practised generally all round London.

III. COST OF MANUFACTURE. (Page 159.)
42. Cost divided under three heads.

MATERIALS AND FUEL. (Pages 159—161.)

43. Clay. 44. Chalk. 45. Sand. 46. Breeze. 47. Soil. 48. Goals ’
and wood. 49. Water.
MACHINERY AND TOOLS. (Page 161.)
50. Cost Of plant.

LABOUR. (Page 162.)
61. Details Of cost.

CONTENTS. xiii
AMERICAN OPINION ON ENGLISH BBIOKMAKING.

(Pages 162—164.)

REFERENCE To ILLUSTRATIONS. (Pages 163—167.)
52 to 59. Description of ﬁgures 1 to 21.

\

 

CHAPTER VI.

LONDON TILERIES.

INTRODUCTORY. (Pages 1 67 —1 69.)

1. The present chapter conﬁned to a description of the manufacture of
pantiles. 2. List of principal articles made at the London Tileries.
BUILDINGS AND PLANT. (Pages 170—183.)

3. Pug-mill. 4. Sling. 5. The Moulding Shed. 6. The Pantile Table.
' 7. The Block and Stock-hoard. 8. The Tile Mould. 9. The Roll.
10. The lVashing-qﬂ‘ Table. 11. The Splager. 12._ The Thwacking
Frame. 13. The Tile Kiln.

PROCESS OF MANUFACTURE. (Pages 183-486.)

14. Clay getting and weathering. 15. ’ Tempering. 16. Slinging.
17. Moulding. 18. Thwaching. 19. Kilning.

COST OF MANUFACTURE. (Pages 186—188.)

20. Tabular view of cost. 21. Selling prices. 22. Differences in the
processes employed in the manufacture of various articles. -’

23. DESCRIPTION OF ILLUSTRATIONS. (Pages 188—189.)

CHAPTER VII.

ON THE MANUFACTURE OF ENCAUSTIC TILES.
(Pages 189—191.:

'1. Revival of the manufacture of eneaustic tiles. 2. Difﬁculties
[arming from the unequal shrinkage of differently-coloured clays.
PROCESS OF MANUFACTURE. (Pages 191—195.)

3. Clay. 4. Moulding. 5. Inlaying. 6. Drying, ﬁring, and glazing.
7. Manufacture of tesseree. 8. Tesselated pavements.

xiv CONTENTS.

CHAPTER VIII.

ON THE MANUFACTURE OF BRICKS AND DRAIN-PIPES RY
MACHINERY. (Pages 195—209.)

Object to deal with principles rather than with minute details. Various-
patents for making bricks by machinery. Description of Oates’s brick-
making machine. Crushing strength of bricks made by this machine.
Machine can utilise materials unserviceable to the hand brickmaker.
Cost of machine. Description of drain-pipe making machine. Hollow
bricks also made by it. Various forms of hollow bricks.

 

CHAPTER IX.

ADDITIONAL REMARKS ON THE MANUFACTURE OI BRICKS
BY MACHINERY. (Pages 210—244.)

Br ROBERT MALLET, A.M., F.R.S.

Improvements in brickmaking since 1863. Whitehead’s improved clay
crushing and grinding roller-mill. Whitehead’s pug-mill. \Vhitehead’s
perforated pug-mill. Portable clay-mill. Composite machines, in which
crushing rollers and horizontal pug-mills are combined. Brickmaking
machines, by \Vhitchead, M. J ardin, Clayton & CO. Machine for
working with plastic clay. Brick-pressing machines, by Longley.
Whitehead, and Bradley and Craven. Dry—clay brickmaking machines,
by Hersey and \Valsh, Bradley and Craven, and \Vilson of Campbell-
ﬁeld. Tile-making machines, by Page &. Co., and Whitehead. Hoffmann’s
brick-kiln.

APPENDIX I.

BY CHARLES TOMZLINSON, F.R.S.
(Pages 245—261.)

On the plasticity and odour of clay. On drying bricks. 0n the use of
coal-dust in making clamp bricks. Brickmaking at Great Grimsby.
Brickmaking in Suffolk. 4 0n the making and bm‘ning of drain-tiles.

APPENDIX II.

BY ROBERT MALLET, A.M., F.R.S.
(Pages 262—272.)

The science of brickmaking. Coloured bricks. Infusorial siliceous
materials. Plasticity and odour Of clay. Water chemically combined or
mechanically present.

 

/" ‘”\
s‘EESEFLT'ERA ”P ".
UNIVERSITY _

CALIEORNW'

RUDIMENTS

 

OF THE

ART 0T MAKING BRICKS AND TILES.

 

INTRODUCTION.

I. IT would be impossible, in a little volume like the
present, to enter at any length upon the early history
of the Art of Brickmaking, nor would such an investi-
gation, however interesting in a historical point of View,
add much to our practical knowledge of the subject.
It is, however, desirable that we should give a few par~
ticulars relative to the progress of the manufacture in
this country; and we propose at the same time to give
a brief sketch of the legal restrictions which have been
imposed from time to time upon the mode of conduct-
ing the operations of the brickmaker.

II. The use of brick as a building material, both burnt
and unburnt, dates from a very early period. Burnt
brick is recorded in the Bible to have been used in the
erection of the tower of Babel 3 and we have the testi-
mony of Herodotus for the fact, which is conﬁrmed by
the investigations of travellers, that burnt bricks, made
from the clay thrown out of the trench surrounding

' B

2 INTRODUCTION.

the city, were used 111 building the walls of the city of
Babylon. These ve1y ancient b1icks we1e .of three
kinds 3 one of which was very similar to the modern
white Suffolk bricks, and another to the ordinary red
~ brick of the present day.

Sun-dried bricks were extensively used in ancient
times, especially in Egypt, where their manufacture
was considered a degrading employment, and, as such,
formed the principal occupation of the Israelites during
their bondage in Egypt after the death of Joseph. Very
interesting ancient representations of the processes
employed are still in cxistence, and throw much light
on various passages of Scripture. Thus, the passage
in Psalm lxxxi. 6, “I removed his, shoulder from the
burden; his hands were delivered from the (water)
pots,” is strikingly illustrated by pictures still preserved
to us, in which labourers are carrying the tempered
clay on their shoulders to the moulders, whilst others
are engaged in carrying vessels of water to temper the
clay. The Egyptian sun-dried bricks were made with
clay mixed with chopped straw, which was furnished to
the Israelites by their Egyptian taskmasters before the
application of Moses to Pharaoh on their behalf, after
which the obligation was laid on them to provide their
own straw, which appears to have been a grievous addi-
tion to their labour. It would appear from the details
given, that the Israelites worked in gangs, under the
superintendence of an overseer of their own nation,
who was provided with all necessary tools and mate-
1ials, and who was pe1sonally 1esponsible for the labour
of the gangs.

Burnt b1icks were, however, also used 1n Egypt for
river walls and hydraulic works, but, probably, not to
any very great extent.

INTRODUCTION. 3

It is recorded in 2 Samuel xii. 31, that David put
the children of Ammon under saws, and barrows, and
axes of iron, and made them pass through the brick-
kiln: without entering on the question whether the
Ammonites we1e made to lab0u1 in the b1ickﬁelds as
the Israelites had themselves p1eviously done during
the time of thei1 bondage 1n Egypt, or whethe1 we are
to unde1 stand that they we1e put to death with hmrible
tortures,.as supposed by most commentators, there is
a strong presumption that the implements here spoken
of in connection with the brick kiln we1e employed in
the p1 eparation of the clay; and if this view be correct,
the passage is inte1esting as evidence of the use of
machinery 1n making b1icks at a ve1y eally pe1iod of
history.

III. The Romans used bricks, both burnt and un-
burnt, in great profusion 3 all the great existing ruins
at Rome being of brick. At the decline of the Roman
Empire, the art of brickmaking fell into disuse, but
was revived in Italy after the lapse of a few centuries.
The mediaaval ecclesiastical and palatial architecture of
Italy exhibits many ﬁne specimens of brickwork and
ornamental work in terra-cotta, co1nices and other
decorations of g1eat beauty being executed in the
latte1 material.

IV. In Holland and the Netherlands, the scarcity‘of _
stone led, at an early period, to the extensive use of
brick, not only for domestic but for ecclesiastical build-
ings, and these countries abound in ﬁne specimens of
brickwork, often in two colours, Combined with great
taste, and producing a very rich effect, as in the cele-
brated examples at Leeuwarden in Friesland. It is
worthy of remark, that in the fens of Lincolnshire and
Norfolk, where we should naturally have Wed to

THE

UNIVERSITY

4 INTRODUCTION.

have found the same material made use of, the churches,
many of which are exceedingly ﬁne specimens of archi-
tecture, are built of small stones, said to have been
brought from a great distance on pack-horses.

V. Brickmaking appears to have been introduced
into England by the Romans, who used large thin
bricks or wall tiles as bond to their rubble construc-
tions ; and such wall tiles continued to be used in
England until rubble work was superseded by regular
masonry, about the time of the Norman Conquest.
Brick does not appear to have come into general use as .
a building material until long afterwards.

In the reign of Henry VIII, however, the art of
brickmaking had arrived at great perfection, and the
remains of many buildings erected about this time
exhibit some of the ﬁnest known specimens of orna-
mental brickwork.

, The following is a list of some of the principal brick
buildings erected at the period of which we speak :—

NAME. WHEN BUILT.
Hurstmonceanx Castle, Sussex . Early in the reign of Henry VI.
Gate of the Ryehouse in Hertfordshire Ditto.
Tattershall Castle, Lincolnshire . . A.D. 1440.
Lollards’ Towyc1 Lambeth Palace . A.D.1454.
Oxborough Hall, \orfolk . . About A.D. 1482.
Gateway Recto1 y, Hadleigh, Suffolk. Close of 15th century.
Old part of Hampton Court . . AD. 1514.
Heng1awe Hall, Suffolk . Finished A.D. 1538.
Manor House, at East Barsham, N01 folk During the reign of Henry VII.
'I‘horpland Hall, Norfolk . Ditto.

Parsonage House, Great Sno1ing, Norfolk Du11ng the reign of Hem y VIII.

Many of these buildings have been engraved in Pugin’s
“ Examples of Gothic Architecture,” to which we would
refer the reader. The decorative details of the Manor
House at East Barsham, and of the Parsonage House
at Great Snoring, are particularly worthy of notice;

INTRODUCTION. 5

the panelled friezes, cornices, and other ornamental
work, being constructed of terra-cotta moulded to the
required form. The use of terra-cotta for decorative
panels and bas-reliefs appears to have been common
during the reign of Henry VIII. The gateway of
York Place, Whitehall, designed by Holbein, was de-
corated with four circular panels, which are still pre-
served at Hatﬁeld Peveril, Hants.

The gateway of the Rectory in Hadleigh churchyard
is very similar in character to that at Oxborough Hall,
engraved in Pugin’s work, above referred to. It has
been lately restored very carefully, the terra-cotta work
fqr the purpose being made at the Layham Kilns, near
Hadleigh, in moulds of somewhat complicated con-
struction.

In the time of Queen Elizabeth, brick seems only to
have been used in large mansions. For common build-
ings, timber framework, ﬁlled in with lath and plaster,
was generally used, and this construction was much
employed, even when brickwork was in common use,
the brickwork, up to a late period, being merely intro-
duced in panels between the wooden framing.

VI. Qn the rebuilding of London after the great ﬁre
of 1666, brick was the material un1ve1 sally adopted for
them new elections, and the 19th Ca1.II. c.1l, regu-
lated the number of bricks in the thickness of the walls
of the several rates of dwelling-houses. One of the
resolutions of the corporation of the city of London,
passed about this time, is interesting 3 it is as follows :—
“ And that they (the surveyors) do encourage and give
directions to all builders, for ornament sake, that the
ornamentsand projections of the front buildings be of
rubbed bricks 3 and that all the naked parts of the walls
may be done of rough bricks, neatly wrought, or all

6 INTRODUCTION.

rubbed, at the direction of the builder, or that the
builders may otherwise enrich their fronts as they
please.”

Much of the old brickwork still remaining in London,
in buildings erected at the end of the 17th and be-
ginning of the 18th century, is very admirably executed.
The most remarkable feature of the brickwork of this
period is the introduction of ornaments carved with the
chisel. A ﬁne example of this kind of work is shown
in the Frontispiece,* which is a sketch of No. 43, St.
Martin’s Lane, one of a block of houses built by a
person of the name of May, who about the same time
erected May’s Buildings, to which the date of 1’7 39 is
afﬁxed. The house in question is said to have been
intended by Mr. May for his own residence. Its deco-
rations consist of two ﬂuted Doric pilasters, supporting
an entablature, the whole executed in ﬁne red brick-
work; the mouldings, ﬂutings, and ornaments of the
metopes having been carved with the chisel after the
erection of the walls-r

VII. It was not till the close of the last century that
bricks were subjected to taxation. The 24th Geo. III.
e. 24, imposed a duty of 2.9. 6d. per thousand on bricks
of all kinds. By the 34th Geo. III. e. 15, the duty was
raised to 43. per thousand. By the 43rd Geo. III. e. 69,
bricks were divided into common and dressed bricks,
and separate rates of duty were imposed on each kind.
These duties and those on tiles were as follows :—

* The author is indebted to the kindness of Mr. Edis for this sketch of
one of the most interesting specimens of ornamental brickwork in the
metropolis.

T This fact was discovered some years ago, when the house was
undergoing a thorough repair, and the scaffolding afforded facilities for a
close inspection of the ornamentation. Cast terra-cotta imitations of
carved stone for architectm‘al decoration were sent by Mr. ‘Blanchard to
the Exhibition of 18-51, and were strongly recommended in the Jury
Report, Class XXVIII.

“1

INTRODUCTION.

SCHEDULE (A)—DUTIES.
BRICKS AND TILES.

£ 8. d.
For eve1y thousand b1icks which shall be made 1n G1eat B1 i-
tain, not exceeding any of the following dimensions, that
is to say, ten inches long, three inches thick and ﬁve inches
wide . . O 5 O
For cve1 y thousand of. b1icks which shall be made in Great
Britain exceeding any of the foregoing dimensions . . 0 10 0

For every thousand of bricks which shall be made 1n G1eat

Britain, and which shall be smoothed or polished on one or

more side or sides, the same not exceeding the supe1ﬁcial

dimensions of ten inches long by ﬁve inches wide . . 0 12 0
For eve1y hundred of such last— mentioned bricks, exceeding} The duties on

the afmesaid superﬁcial dimensions Dying-tiles-
For every thousand of plain tiles which shall be made in

Great B1itain . 0 4 10
For every thousand of pan or ridge tiles which shall be made

in Great Britain . O 12 10
For every hundred of paving tiles which shall be made in

G1eat B1itain not exceeding ten inches squa1e . . O 2 5
For every hundred of paving tiles which shall be made 111

Great B1itain exceeding ten inches squa1e . O 4 10

For every thousand tiles which shall be made' 1n G1eat Bri-
tain, other than such as me l1e1einbefore enume1ated or
dcsc1ibed, by whatever name or names such tiles are or may
be called 01 known . . O 4 10
N. B. —-Tl1e said duties on bricks and tiles to be paid by the maker
or makers thereof 1espectiiclv.

By the 3rd William IV. c. 11 (1833), the duties on
tiles* were wholly repealed, and two years afterwards
the dutyon bricks was again raised, making the duty
on common bricks 5.9. 10d. per thousand.

The brick duties formed the subject of the 18th
Report of the Commissioners of Excise Enquiry, 1836 3
and in 1839 these duties were repealed by the 2nd and
3rd Vict. c. 24, and a uniform duty of 58. 1003. per thou-

* By a curious oversight, this Act, which was intended to put rooﬁng
tiles on the same footing as slates, also repealed the duties on paving tiles,
whilst bricks used for paving remained subject to duty as before. Thus
a lump of clay put into a mould of 10in. X 5 in. X 3 paid duty, but the
same quantity of clay put into a mould 10 in. square was duty free, because
it came under the denomination of a tile. The manufacturer, and nc‘
the pubhc, reaped the advantage thus given

6 INTRODUCTION.

sand imposed on all bricks of which the cubic content
did not exceed 150 cubic inches, without any distinc-
tion as to shape or quality.

VIII. The new Act was a great boon to the public
as well as to the trade, as, in consequence of the removal
of the restrictions on shape, bricks might be made to
any required pattern 3 and moulded bricks for cornices,
plinths, string-courses, &c., could be manufactured at
a moderate price. Under the old regulations, also, the
brickmaker was precluded from correcting any defect
which might arise from warping or twisting in the
process of drying, without making himself liable to pay
the higher rate of duty. In 1850 the duty on bricks
was entirely repealed.

IX. The number of bricks annually made in Great
Britain is very great ; just before the duty was repealed,
a charge was made on about 1,800,000,000 bricks
annually. In 1854: the number manufactured was
estimated to be over 2,000,000,000, of which about
130,000,000 were made in the brickﬁelds in and
around Manchester, and about a similar number by
the London brickmakers. The weight of this annual
produce is upwards of 5,400,000 tons, representing
a capital employed probably exceeding £2,000,000.
Comparatively few bricks are made in Scotland, on
account of the abundance of stone in that country.
Those who are not practically connected with engineer-
ing works may ﬁnd some difﬁculty in forming a. clear
conception of the immense number of bricks annually
made for railway purposes 3 and which may be roughly
estimated at from 600 to 800 millions annually. In
1821, before the introduction of the railway system,
the number of bricks charged with duty in England
and Scotland amounted to 913,231,000. In 1831 the

INTRODUCTION. 9

number was 1,153,048,581. In 1840 the number rose
to 1,725,628,333.

A common turnpike road bridge over a railway
requires for its construction, in round numbers, 300,000
bricks ; and the lining of a railway tunnel of ordinary
dimensions consumes about 8,000 for every yard in
length, or in round numbers about 14,000,000 per
mile. 0

X. The processes employed in the manufacture of
bricks differ very greatly in various parts of the country.
In some districts the clay is ground between rollers,
and the pugmill is never used. In others, both rollers
and pugmills are employed. In the neighbourhood of
London the clay is commonly passed through a wash-
mill. Equal differences exist in the processes of mould-
ing and drying. Lastly, the form of the kiln varies
greatly. In many places the common Dutch kiln is
the one employed. In Essex and Suffolk the kilns have
arched furnaces beneath their ﬂoors 5 in Staﬂ‘ordshire
bricks are ﬁred in circular domed ovens called cupolas ;
whilst near London kilns are not used, and bricks are
burnt in clamps, the fuel required for their vitriﬁca-
tion being mixed up with the clay in the process of
tempering.

XI. Bricks vary very much in their strength, a point
to which, although of considerable importance, very little
attention is paid. There is a striking difference in this
respect between modern and ancient bricks; a differ-
ence very much in favour of those made centuries ago;
and, perhaps, the weakest bricks made are supplied by
London makers. In some experiments by Mr. Hawkes
(a detailed account of which is given in the Builder
for 1861) it was found that of thirty-ﬁve kinds of bricks
which were tested, the average strength of the strongest

B 3

10 INTRODUCTION.

was 2,855 lbs. ; of those of medium tenacity, 2,125 lbs. 3
and of those of least strength, 1557 lbs. These bricks
were of the ordinary form, and varied in thickness from
3125 to 1'7 inches. It was also found that the thinner
kinds of bricks were proportionally stronger than
those which were thicker 3 the greatest, mean, and least
strengths of the former being respectively 4,0881bs.,
2,9544 lbs., and 2,070 lbs.

In comparing weight with strength, it was found
that the average weight of twenty-ﬁve bricks from dif-
ferent districts, was 785 lbs., and that the heaviest
bricks were usually the strongest. The results of the
following experiments are calculated according to a
uniform standard :—Tipton blue bricks, weighing 10 lbs.,
gave 5,555 lbs., 3,975 lbs., and 2,801 lbs., as the
greatest, mean, and least degree of strength. Boston
bricks, weighing 988 lbs., gave 4,133 lbs., 3,198 lbs.,
and 2,616 lbs., as the value of the same items. Roman
hypocaust tiles from the ancient city of Uriconium,
near “rroxeter, gave 4,670 lbs., 3,567 lbs., and
2,630 lbs. The Leeds bricks, weighing 9'17 lbs.,
gave 4,133 lbs., 3,198 lbs., and 2,616 lbs. Dutch
clinkers, with a weight of only 656 lbs., gave the respec-
tive strength of 4‘,0061bs., 3,3¢1«5lbs., and 2,542 lbs.
This is an exception to the general result of the heaviest
bricks being the strongest. Lastly, the lightest London
bricks, weighing 6°19 lbs., gave 1,496 lbs., 998 lbs., and
366 lbs. The experiments also gave evidence of the
fact that bricks were unable to sustain for any length
of time a weight considerably less than that which was
originally required to break them 3 for example, a Bal-
timore brick, which required 850 lbs. to break it, car-
ried a weight of 735 lbs. for ten hours only, and then
broke. It must be borne in mind that the second

INTRODUCTION. ll

result is represented in terms of the whole brick, for
the sake of rendering the comparison more easy,
although, of course, the experiment could only be made
on the half brick.

XII. Now that machine-made bricks are getting
into general use, notwithstanding that some opposition
has been made to their introduction, the following
table may be interesting. It is a report of the results
of some experiments on hand-made and machine-made
bricks, with Messrs. Burton and Co. ’s hydraulic press.
All the bricks weie bedded upon a thickness of felt,
and laid upon an i1 on faced plate.

]?ressure to crack. ]?ressure to crush.

tons. tons.
Good London grey stocks . . . 12-00 . . . 1400
Best paviours to be got . . . 14'00 . . . 2300
Red bricks, not fully burnt . . . 13'75 . . . 25 05
Ditto, ordinary quality . . . . 13°00 . . . 2625
Three white bricks made b Cla - _ .
ton and Co.’s machineryy .y 17 05 ' ' ' 41 05
Ditto, second best, with four bricks 16°25 . . . 4100

In the following pages we have described at con-
siderable length the practice of brickmaking as carried
on in Nottinghamshire, Staﬁordshire, Suffolk, and in
the neighbourhood of London; and although the prac-
tice of almost every county presents some local pecu-
liarity, the reader who has carefully gone through these
accounts will be enabled to understand the object of
any processes not here described, and to form a toler-
ably correct judgment as to Whether the process of
manufacture in any district is conducted in a judicious
manner; or Whether the brickmaker has merely fol-
lowed the practices handed down bv '1is predecessors
Without any consideration as to the possibility of im-
proving upon them. Before, however, entering upon
the practical details of the subject, it is necessary that

12 RUDIMENTS or THE

the reader should have some knowledge of the general
principles of brickmaking, and of the nature of the
processes employed; and these we shall proceed to
consider in the following chapter.

CHAPTER I.

GENERAL PRINCIPLES OF THE MANUFACTURE OF
BRICKS AND TILES.

l. BRICKS.

1. Tla; whole of the operations of the brickmaker

may be classed under ﬁve heads, viz. :—
Preparation of brick earth.
lI‘empering.
Moulding.
Drying.
Burning.

We propose in this chapter to describe these Opera-
tions one by one, pointing out the object to be effected
by each, and comparing at the same time the different
processes employed in various parts of this country for
the same end.

PREPARATION OF BRICK EARTH.

2. The qualities to be aimed at in making bricks for
building purposes may be thus enumeratedz—Sound-
ness, that is, freedom from cracks and ﬂaws ; hardness,
to enable them to withstand pressure and cross strain 3
_ regularity of shape, that the mortar by which they are
united maybe of uniform thickness to insure unifor-
mity of settlement; uniformity of size, that all the
bricks in a course may be of thc same height; uni-

ART or MAKING BRICKS AND TILES 13

formity of colour, which is of importance only in
ornamental work; facility of cutting, to enable the
bricklayer to cut them to any given shape, as required
in executing all kinds of gauged work; lastly, for
furnace-work, and all situations exposed to intense
heat, infusibility.

3. Success in attaining the desired end depends
chieﬂy on a proper selection of brick earths; their
judicious preparation before commencing the actual
process of briekmaking, as well as on the drying and
burning of the bricks. The other operations are
matters of minor importance. Brickmaking may be
viewed in two lights—as a science, and as an art. The
former has been little studied, and is imperfectly under-
stood; whilst the latter has been brought to great
perfection.

4. The argillaceous earths suitable for briekmaking
may be divided into three principal classes, viz. '—

Pure clays, composed chieﬂy of alumina and silica,
but containing a small proportion of other subStances—
as iron, lime, &c.* (See Appendix II., page 263.)

*The following analyses of various kinds of clay aie gixen in the
second volume of the English tianslation of “Knapp’ s Technological
Chemist1y.”

 

Cornish Stour-

 

- ' Sandy Brick
washed bridge ﬁre Pipe clay. Blue clay. .
Kaolin. clay. clay. clay.
Silica . 46'32 64'10 53'66 66'68 46138 49'44

Alumina 39'74 23'15 32'00 26°08 38'04 34'26

on?" } 0-27 1'85 1-35 1'26 104 7-7
of Iron

 

 

 

 

Lime . 0‘36 0'40 0'84 1‘20 1‘4
Magnesia 0'44 0'95, trace trace trace 5'1
Potash 0,

& soda} } 1‘ 67
Water . 10'00 12°08 5'14 1357 1'94

 

99-80 100-05 991-49 100-00 100-23 100-00

 

 

 

 

 

 

 

 

 

l4 RUDIMENTS or THE

Maris, which may be described as earths containing
a considerable pr0portion of lime.

Loams, which may be described as light sandy clays.

It very seldom happens that earths are found which
are suited for the purpose of brickmaking without some
admixtu1e. The pine clays 1equi1e the addition of
sand loam, 01 some mildc1 ea1th; whilst the loams am
often so loose that they could not be made into bricks
without the addition of lime to flu; and bind the earth.
Even when the clay requi1es no mixtu1e, the difference
in the working of two adjacent st1ata in the same ﬁeld
is often so great that it is advisable to mix two or three
sorts together to produce uniformity in the size and
colour of the bricks.

5. It appears, then, that a chemical compound of
silica and alumina is the principal ingredient in all
brick earth.* This silicate of alumina, or pure clay
alone, or those clays which contain but little sand, may,
when beaten up with water into a stiff paste, be moulded
with great ease into any shape; but will shrink and
crack in drying, however carefully and slowly the ope-
ration be conducted 5 and will not stand ﬁring, as a red
heat causes the mass to rend and warp, although it
becomes very hard by the action of the ﬁre.

The addition of any substance which will neither
combine with water, nor is subject to contraction, greatly
remedies these defects, whilst the plastic quality of the
clay is not materially affected. For this reason the
strong clays are mixedjvitli milder earth or with sand.
The loams and marls ~used for brickmaking in the
neighbourhood of London are mixed with lime and
sifted breeze for the same purpose, and also to effect the
ﬂuxing of the earth, as will be presently described.

Some remarks on the plasticity of clay will be found in the A; pendia'.

ART or MAKING BRICKS AND TILES. 15

6. Fire clays or refraclory clays are compounds of
silica. alumina, and water, or hydrated silicates of alu-
mina represented by the formula A1203, 28103+ ‘ZHO.
Such clays owe their refractory qualities to their com- ,
palative f1eedom from lime, magnesia, metallic oxides,
and similar substances which act as ﬂuxes. Few
clays, however, exist in nature according to this p111e
type. The composition and quality of bclays in con—
tiguous beds 1n the same pit, and even of clay from the
same contiguous horizontal bed, may vary. “Ifwe
compare different clays together in respect to elementary
composition, we ﬁnd the relation between the silica and
alumina to be extremely variable, and accordingly, the
formulae which have been proposed to express their
rational constitution are very discordant. This is in
great measure to be explained by the fact, that in many
days a large proportion of silica exists uncombined
either as sand, or in a much ﬁner state of division.
The-grittiness of a clay is due to the presence of sand.”*
Fire-bricks are used in those parts of furnaces where
the heat would soon destroy ordinary bricks. They are
made of various shapes and sizes as required, and are
often produced, as in the iron works of South Wales,
on the spot. The clay is ground between rolls, or under
edge stones, and kneaded by treading. The bricks are
made by hand in moulds; they are carefully dried in
stoves, and burnt at a high temperature in closed kilns.
Burnt clay in powder is sometimes mixed with the raw
clay. Stourbridge clay is celebrated for the manufacture
of ﬁne bricks, but clay from the coal-measures is also
largely used. All these bricks have a pale brownish
colour, but they are sometimes mottled with dark spots,

* “ Metallmgy, ” by John Pc1cy, M D. ,F. R. S, Lectu1ci on Metallurgy
_ at the Government School of Mines. London, 1861.

 

man—WM w ;‘~.-v....’._,... n... .._

16 RUDIMEN TS or THE

which Dr. Percy refers to the presence of particles of
iron pyrites. The Dinas ﬁre-brick consists almost
entirely of silica, the material being obtained from the
rock of that name in the Vale of Neath. It lies on the
limestone, and occasionally intermixes with it, and
contains probably about 5 per cent. of calcareous matter.
The bricks have extraordinary ﬁre-proof qualities. The
material had long been used as a sand, and many
attempts were made to form it into bricks, without
success, until a method was contrived by the late Mr.
W. W. Young, when in 1822 a company was formed
for the manufacture of these bricks. The mode of
making the Dinas brick was long kept secret, but a
number of original details concerning it are given in
Dr. Percy’s work. The material which is called clay is
found at several places in the Vale of Neath in the state
of rock, and disintegrated like sand. The colour when
dry is pale grey. The rock is crushed to coarse powder
between iron rolls; it softens by exposure to the air,
but some of it is too hard to be used. “ The powder of
the rock is mixed with about 1 per cent. of lime and
sufﬁcient water to make it cohere slightly by pressure.
This mixture is pressed into iron moulds, of which two-
are ﬁxed under one press, side by side. The mould,
which is open at the top and bottom, like ordinary
brick-moulds, is closed below by a moveable iron plate,
and above by another plate of iron, which ﬁts in like a
piston, and is connected with a lever. The machine
being adjusted, the coarse mixture is put into the
moulds by a workman, whose hands are protected by
stout gloves, as the sharp edges of the fragments would
otherwise wound them: the piston is then pressed
down, after which the moveable bed of iron on which the
brick is formed is lowered and taken away with the

ART OF MAKING BRICKS AND TILES. 17

brick upon it, as it is not sufﬁciently solid. to admit of
being carried in the usual manner. The bricks are
dried on these plates upon ﬂoors warmed by ﬂues
passing underneath; and when dry they are piled in a
circular closed kiln covered with a dome, similar to
kilns in which common ﬁre bricks are burned. About
seven days of hard ﬁring are required for these bricks,
and about the same time for the cooling of the kiln.
One kiln contains 32,000 bricks, and consumes 40
tons of coal, half free-burning and half binding. The
price (1859) is 608. the thousand.”* The fracture
of one of these bricks shows irregular particles of quartz,
and the lime which is added acts as a ﬂux, causing them
to agglutinate. These bricks expand by heat, while
bricks made of ﬁre clay com‘mcz‘. Hence they are
useful for the roofs of reverberatory furnaces, and for
parts where solid and compact lining is required. These
siliceous bricks must not be exposed to the action of
slags rich in metallic oxides.

’7. Fire clay, being an expensive article, is frequently
mixed with burnt clay, often as much as two parts by
weight to one of Stourbridge clay. Broken crucibles,
'old ﬁre b1icks, and old glass-potsg ground to powder are
also mixed with ﬁre clay.

8. Fi1e clay 1s found tl110ughout the coal n1easu1es,
but that of Stourb1idge 1s co11s1d01 ed to be the best, as
y it will bear the most intense heat that can be produced
without becoming fused. Next in esteem to those of
Stourbridge are the Welsh ﬁre bricks, but they will not
bear such intense heat. Excellent ﬁre bricks are made
at Newcastle and Glasgow. Fire bricks are made near
Windsor, at the village of Hedgerly, from a sandy

" In this year bricks were much cheaper than they have been since.

 

18 RUDIMENTS or THE

loam known by the name of Windsor loam, and much
used in London for ﬁre-work, and also by chemists for
luting their furnaces, and for similar purposes.

The relative merits of VVortley, Welsh, Stourbridge,
and other ﬁre bricks, are best shown by their commer-
cial value. The following items, extracted from Lock-
wood’s “ Builders’ and Contractors’ Price Book for

1892? edited by F. T. w. Miller, exhibit their rela-

tive cost :—

Per 1000.

£ 5. d.
Wortley ﬁre bricks . 5 0 0
Welsh ditto . . . 5 4 0
Stourbridge ditto . 6 0 0
Newcastle ditto 5 0 0
Dorset ditto . . . . . 4 16 0
Red Yorkshire ov on ditto . . . 3 15 0

9. Bricks made of refractory clay, containing no lime
or alkaline matter, are baked rather than burnt; and
their soundness and hardness depend upon the ﬁneness
to which the clay has been ground, and the degree of
ﬁring to which it has been exposed.

10. It is very seldom that the common clays are
found to be free from lime and other ﬂuxes; and when
these are present in certain proportions, the silica of
the clay becomes fused at a mode1 ate heat, and cements
the mass together. Some eai ths are very fusible, and,
when used for brickmaking, great care is requisite in
ﬁring the bricks to prevent them from running together
in the kiln. '

11. The earths used for brickmaking near London
are not clays, but loams and marls. To render these
earths ﬁt for brickmaking, they are mixed with chalk
ground to a pulp in a wash- mill. This effects a double
purpose, for the lime not only imparts soundness to the
bricks, acting mechanically to pievent the clay from
shrinking and ciacking, but also assists in fusing the

ART OF MAKING BRICKS AND TILES. 19

siliceous particles 3 and when present in sufﬁcient quan-
tity, corrects the evil effects of an overdose of sand, as
it takes up the excess of silica that would otherwise
remain in an uncombined state.

12. It will be seen from these remarks that we may
divide bricks generally into two classes—baked bricks
made from the refractory clays, and burnt or vitriﬁed
bricks made from the fusible earths.

The fusible earths are the most difﬁcult of treatment,
as there is considerable practical difﬁculty in obtaining
a sufﬁcient degree of hardness without risking the
fusion of the bricks ; and it will be found that ordinary
kiln-burnt bricks, made from the common clays, are for
the most part of inferior quality, being hard only on the
outside," whilst the middle is imperfectly burnt, and
remains tender. The superior quality of the London
malm bricks, which are made from a very fusible com-
pound, is chieﬂy due to the use of sifted breezeﬁl< which
is thoroughly incorporated with the brick earth in the
pugmill, so that each brick becomes a kind of ﬁre ball,
and contains in itself the fuel required for its vitriﬁca-
tion. In building the clamps the bricks are stacked
close together, and no: as in ordinary kiln-burning, in
which openings are left between the bricks to allow of
the distribution of the heat from the live holes. The
effect of these arrangements is to produce a steady uni-
form heat, which vitriﬁes the bricks without melting
them. Those bricks which are in contact with the live
holes or ﬂues melt into a greenish black slag.

13. Cutters, that is, bricks which will .Qar’gutting
and rubbing to any required shape, are made from
Ms, either natural or artiﬁcial. In many

‘9 Breeze 1s a casual mixtule of cinders, small coal, and ashes, such as
is collected by the dustmen.

 

20 RUDIMENTS or THE

districts cutters are not made, there being no suitable
material for the purpose. Bricks made from pure clays
containing but little silica are hard and tough, and will
not bear cutting.

14. We now come to the consideration of colour,
which depends on the varying proportions of the
hydrated oxide of iron in the clay, which change
according to the amount of heat to which the bricks
are subjected, and not on their natural colour before
burning. This should be borne in mind, because brick-
makers often speak of clays as red clay, white clay, 850.,
according to the colour of the bricks made from them,
without any reference to their colour in the unburnt
state.

If iron be present in clay without lime or similar
substances, the colour produced at a moderate red heat
will be red, the intensity of colour depending on the
proportion of iron. The bind or shale of the coal mea-
sures burns to a bright clear red. If the clay be
slightly fusible, an intense heat vitriﬁes the outside of
the mass and changes its colour, as in the case of the
Staﬁ'ordshire bricks, which, when burnt in the ordinary
way, are of a red colour, which, however, is changed to
a greenish blue by longer ﬁring at a greater heat. The
addition oflime changes the red produced by the oxide
of iron to a cream brown, whilst magnesia brings it to
a yellow. Few clays produce a clear red, the majority
burning of different shades of colour, varying from
reddish brown to a dirty red, according to the propor-
tion of lime and similar substances which they contain.
Some clays, as the plastic clays of Suffolk, Devon-
shire,* and Dorsetshire, burn of a clear white, as may

* The plastic clay of Devonshire and Dorsetshire forms the basis of
the English stone ware. It is composed of about seventy-six parts of

ART or MAKING BRICKS AND TILES. 21

be seen in the Suffolk white bricks, which are much
esteemed for their soundness and colour. The London
malms have a rich brimstone tint, which is greatly
assisted by the nature of the sand used in the process
of moulding.

15. By employing metallic oxides and the ochreous
metallic earths, ornamentak bricks are made of a
variety of colours. This, however, is a branch of brick-
making which has as yet received very little attention,
although, with the rising taste for polychromatic deco—
ration, it is well worthy of consideration. (See note,
page 270.)

‘ Yellow clampt burnt bricks are made in the vicinity
of the metropolis, and in other* situations where
similar material and fuel are readily obtained. White
bricks are made from the plastic clays of Devonshire
and Dorsetshire, and also Cambridgeshire, Norfolk,
Suffolk, and Essex, as well as in other counties. Red
bricks are made in almost every part of England; but
the ﬁne red or cutting brick is not generally made.
Blue bricks are made in Staﬁ’ordshire, and are much
used in that part of England.

Sound and well-burnt bricks are generally of a clear
and uniform colour, and when struck together will ring
with a metallic sound. Deﬁciency in either of these
points indicates inferiority.

.16. Bricks sufﬁciently light to ﬂoat in the water were
known to the ancients. This invention, however, was
completely lost until rediscovered at the close of the
silica and twenty-four of alumina, with some other ingredients in very
small proportions. This clay is very refractory in high heats, a property
which, joined to its whiteness when burned, renders it peculiarly valuable
for pottery, &c.

* Yellow clampt burnt bricks are made at Margate, in Kent, from the
patches of plastic clay lying in the hollows of the chalk. The older part

of Margate is built of red bricks said to have been brought from Canter-
bury.

22 RUDIMENTS or THE

last century by M. Fabbroni, who published an account
of his experiments. M. Fabbroni succeeded in making
ﬂoating bricks of an infusible earth called fossil meal,
which is abundant in some parts of Italy. Bricks made
of this earth are only one-sixth of the weight of common
clay brie-ks, on which account they would be of great
service in vaulting church roofs, and for similar pur-
poses. Ehrenberg, the eminent German microscopist,
showed that this earth consists almost entirely of the
frustules or siliceous skeletons of various kinds of
minute water plants. (See note, page 271.)

Having thus brieﬂy sketched the leading principles .
which should be our guide in the selection of brick
earth, we will now proceed to describe the several pro-
cesses by which it is brought into a ﬁt state for use.

17. Unsoz’lz'ng.——The ﬁrst operation is to remove the
mould and top soil, which is wheeled away, and should
be reserved for resoiling the exhausted workings when
they are again brought into cultivation. In London
the vegetable mould is called the encallow, and the
operation of removing it, encallowing.

18. Clay-digging and PVeaz‘lzerz'ng.—The briclLearth
is dug in the autumn, and wheeled to a level place pre-
pared to receive 'it, when it is heaped up to the depth
of several feet, and left through the winter months to
be mellowed by the frosts, which break up and crumble
the lumps. At the commencement of the brickmaking
season, which generally begins in April, the clay is
turned over with shovels, and tempered either by spade
labour or in the pugmill ; sufﬁcient water being added
to give plasticity to the mass.

19. During these Operations any stones which may
be found must be carefully picked out by hand, which
is a. tedious and expensive operation, but one which

ART or MAKING BRICKS AND TILES. 23

cannot be neglected with impunity, as the presence of a
pebble in a brick generally causes it to crack in drying,
and makes it shaky and unsound when burnt. If the
earths to be used are much mixed with gravel, the only
remedy is to wash them in a trough ﬁlled with water,
and provided with a grating sufﬁciently close to prevent
even small stones from passing \through, and by means
of which the liquid pulp runs off into pits prepared to
receive it, where it remains until, 'by evaporation, it
becomes sufﬁciently ﬁrm to be used. This process is
used in making cutting bricks, which require to be of
perfectly uniform texture throughout their whole sub-
stance ; but it is tedious and expensive.

In working the marls of . the midland districts, much
trouble is experienced from the veins of skerry or im-
pure limestone with which these earths abound. If a
small.piece of limestone, no bigger than a pea, is allowed
to remain in the clay, it will destroy any brick into
which it ﬁnds its way. The carbonic acid is driven off
by the heat of the kiln, and forces a vent through the
side of the brick, leaving a cavity through which water
ﬁnds its way, and the ﬁrst sharp frost to which such
a brick may be exposed generally suffices to destroy
the face.

20. Grinding—:30 remedy this serious evil, cast-iron
rollers are now generally used throughout the midland
districts for grinding the clay and crushing the pieces
of limestone found in it, and their introduction has
been attended with very beneﬁcial results. The clays
of the coal measures contain much ironstone, which
requires to be crushed in the same manner. .

In many yards the grinding of the clay is made to
form part of the process of tempering, the routine being
as follows z—clay-getting, weathering, turning over and

24: RUDIMENTS or THE

wheeling to mill, grinding, temperlng, and moulding.
In Staffordshire the clay is not only ground, but is also
pugged in the process of tempering, as described in
chap. iv. art. 38; the routine is then as follows :—
clay-getting, grinding, weathering, turning over, pug-
ging, moulding.

Kt a well- mounted brickwork in Nottingham, belong-
ing to Moses Wood, Esq., the clay used in making the
best facing bricks is treated as follows :—it is ﬁrst
turned over and weathered by exposure to frost; ° is
then again turned over, and the stones picked out by
hand, after which it is ground between rollers set very
close together, and then left in cellars to ripen for a
year or more, before it is ﬁnally tempered for the use
of the moulder. The bricks made from clay thus
prepared are of ﬁrst-rate quality, but the expense of
the process is too great to allow of much proﬁt to the
manufacturer.

"/21. Washing—The preparation of brick-earth in the
neighbourhood of London is effected by processes quite
different from those just described. For marl or malm
bricks, the earth is ground to apulp in a wash-mill, and
mixed with chalk previously ground to the consistence
of cream; this pulp, or, as it is technically called,
malm, is run off through a ﬁne grating into pits pre-
pared to receive it, and there left, until by evaporation
and settlement, it becomes of sufﬁcient consistency to
allow a man to walk upon it. It is then soiled, i.e.
covered with siftings from domestic ashes, and left
through the winter to mellow. At the commencement
of the brickmaking season the whole is turned over,
and the ashes thoroughly incorporated with the earth
in the pugmill. In making common bricks, the whole
of the earth is not washed, but the unwashed clay is‘

ART or MAKING BRICKS AND TILES. 25

heaped up on a prepared ﬂoor, and a proportion of
liquid malm poured over it, after which it is soiled in
the same way as for making malms.

These processes are well calculated to produce sound,
hard, and well-shaped bricks. The washing of the clay
effectually frees it from stones and hard lumps, whilst
the mixing of the chalk and clay‘in a ﬂuid state ensures
the perfect homogeneousness of the mass, and enables
the lime to combine with the silica of the. clay, which
w-f‘ﬁd not be the case unless it were in a state of
minute division.

22. There are very few earths suitable in their natural
- state for making cutters. They are therefore usually
made of washed earth mixed up with a proportion of
sand. Without the addition of sand the brick would}.
_I,ot bear rubbing, and it would be very difﬁcult to bring
it to a smooth face. '

23. It may be here observed that sufﬁcient attention
is not generally paid to the preparation of brick-earth,
as it too frequently happens that the clay is dug in the
spring instead of the autumn, in which case the beneﬁt
to be derived from the winter frosts is quite lost. The
use of rollers, to a certain extent, counterbalances this;
but bricks made of clay that has been thoroughly
weathered are sounder and less liable to warp in the
kiln.

TEMPERING.

24s. The object of tempering is to bring the prepared
brick earth into a homogeneous paste, for the use of
the moulder.

The old-fashioned way of tempering was to turn the
clay 'over repeatedly with shovels, and to tread it over
by‘ horses or men, until it acquired the requisite plasti-
city. This method is still practised in many country

c

26 RUDIMEN TS or THE

yards; but where the demand for bricks is extensive,
machinery is usually employed, the clay being either
ground between rollers or pugged in a pugmill. This
latter process is also called grinding, and, therefore, in
making inquiries respecting the practice of particular
localities, the reader should be careful that he is not
misled by the same name being applied to processes
which are essentially different.

“Then rollers are used in the preliminary processes,
the labour of tempering is much reduced. Their use is,
however, most generally conﬁned to the process of
tempering, which is then effected as follows :-—The clay,
which has been left in heaps through the winter to
mellow, is turned over with wooden shovels (water
being added as required), and wheeled to the mill,
where it is crushed between the rollers, and falls on a
ﬂoor below them, where it is again turned over, and is
then ready for use.

When the clay is sufﬁciently mild and free from lime
and ironstone as not to require crushing, tempering by
spade labour and treading is generally adopted; but
in the districts where rollers are used, the brick-earths
are generally so indurated that a great proportion could
not be rendered ﬁt for use by the ordinary processes.
The advantages and disadvantages of the use of rollers
are considered at some length in chap. iii. art. 4«.

25. In making bricks for railway works, which has
been done lately to an almost incredible extent, con-
tractors are generally little anxious as to the shape or
appearance of the article turned out of the kiln, pro-
vided it be sufﬁciently sound to pass the scrutiny: of the
inspector or resident engineer. As the whole process
of railway brickmaking often occupies but a few we eks
from the ﬁrst turning over of the clay to the laying of

ART OF MAKING BRICKS AND TILES. 27

the bricks in the work, the use of rollers in such cases
is very desirable, as a partial substitute for weathering.
On the line of the Nottingham and Grantham Railway
several millions of bricks have been made as follows :—
The clay is ﬁrst turned over with the spade, and watered
and trodden by men or boys, who, at the same time,
pick out the stones. It is then wheeled to the mill
and ground; after which it is turned over a second
time, and then passed at once to the moulding table.
26. Although in many country places, where the
demand for bricks is very small, tempering is still per:
formed by treading and spade labour, the pugmill is
very extensively used near London, and in most places
where the brick—earth is of mild quality, so as not to
require crushing, and the demand for bricks sufﬁciently
constant to make it worth while to erect machinery.
The pugmill used near London is a wooden tub, in shape
an inverted frustrum of a cone, with an upright revolving
shaft passing through its centre, to which are keyed a
number of knives, which, by their motion, cut and
knead the clay, and force it gradually through the mill,
whence it issues in a thoroughly tempered state, ﬁt for
the use of the moulder. Some contend that the pug-
mill is no improvement on the old system of tempering
by manual labour 5 but, without entering into this ques-
tion, there can be no doubt that it does its work very
thoroughly, and its use prevents the chance of the tem-
pering being imperfectly performed through the negli-
gence of the temperers. In the London brickﬁelds the
process of tempering is conducted as follows :—--The
malm, or malmed brie; rth, as the case may be, is
turned over with the spade, and the soil* (ashes) dug

* Soil, 219. ashes, must not be confounded with soil, vegetalile mould,
which is in some places mixed with strong clay, to render it milder.

c2

28 RUDIMENTS or THE

into it, water being added as may be necessary. It is
then barrowed to the pugmill, and being thrown in at
the top, passes through the mill, and keeps continually
issuing at a hole in the bottom. As the clay issues
from the ejectment hole, it is cut into parallelopipedons
by a labourer, and, if not wanted for immediate use, is
piled up and covered with sacks to prevent it from
becoming too dry.

In Staﬂ’ordshire steam power is used for driving both
rollers and pugmill, and the case of the latter is usually
a hollow cast-iron cylinder.

MOULDING.

27. A brick-mould is a kind of box without top or
bottom, and the process of moulding consists in dashing .
the tempered clay into the mould with sufﬁcient force
to make the clot completely ﬁll it, after which the
superﬂuous clay is stricken with a strike, and the newly-
made brick is either turned out on a drying ﬂoor to
harden, or on a board or pallet, on which it is wheeled
to the hack-ground. The ﬁrst mode of working is
known as slop moulding, because the mould is dipped
in water, from time to time, to prevent the clay from
adhering to it. The second method may be distinguished
as pallet moulding; and in this process the mould is
not wetted, but sanded. These distinctions, however,
do not universally hold good, because in some places
slop-moulded bricks are turned out on pallets.

28. These differences may, at ﬁrst sight, appear
trivial, but they affect the whole economy of a brick-
work. In slop moulding the raw bricks are shifted by
hand from the moulding table to the drying ﬂoor, from
the drying ﬂoor to the hovel or drying shed, and from

ART or MAKING BRICKS AND TILES. 29

the hovel to the kiln. It is therefore requisite that
the works should be laid out so as to make the distance
to which the bricks have to be carried the shortest pos-
sible. Accordingly,* the kiln is placed in a central
situation in a rectangular space, bounded on two or
more sides by the hovel, and the working ﬂoors are
formed round the outside of the latter.

In the process of slop moulding the newly-made brick
is carried, mould and all, by the moulder’s boy to the
ﬂat, or drying ﬂoor, on which it is carefully deposited 3
and whilst this is being done, the moulder makes a
second brick in a second mould, the boy returning with
the ﬁrst mould by the time the second brick is being
ﬁnished. As soon, therefore, as the ﬂoor becomes
ﬁlled for a certain distance from the moulding table, the
latter must be removed to a vacant spot, or the distance
to which the bricks must be carried would be too great
to allow of the boy’s returning in time with the empty
mould.

29. In pallet moulding but one mould is used. Each
brick, as it is moulded, is turned out on a pallet, and
placed by a boy on a hack-barrow, which, when loaded,
is wheeled away to the hack-ground, where the bricks
are built up to dry in low walls called hacks. One
moulder will keep two wheelers constantly employed,
two barrows being always in work, whilst a third is
being loaded at the moulding stool. When placed on
the barrow, it is of little consequence (comparatively)
whether the bricks have to be wheeled 5 yards or 50 ;
and the distance from the moulding stool to the end of
the hacks is sometimes considerable.

30. The moulding table is simply a rough table, made

*. There are, of course, some exceptions; but, where practicable, the
drying ﬂoors and hovel are placed close to the kilns.

30 RUDIMENTS or THE

in various ways in different parts of the country, but
the essential differences are, that for slop moulding the
table is furnished with a water trough, in which the
moulds are dipped after each time of using 3 whilst in
pallet moulding, for which the mould is usually sanded
and not wetted, the water trough is omitted, and a page
(see account of Brickmaking as practised in London) is
added, on which the bricks are placed preparatory to
their being shifted to the hack-barrow.

31. Brick moulds are made in a variety of ways.
Some are made of brass cast in four pieces and riveted
together 5 some are of sheet iron, cased with wood on
the two longest sides 3 and others again are made
entirely of wood, and the edges only plated with iron.
Drawings and detailed descriptions of each of these
constructions are given in the subsequent chapters. In
using wooden moulds the slop-moulding process is
almost necessary, as the brick would not leave the sides
‘ of the mould unless it were very wet. Iron moulds are
sanded, but not wetted. Brass, or, as they are techni-
‘ cally called, c0pper moulds, require neither sanding nor
wetting, do not rust, and are a great improvement on
the common wooden mould formerly in general use.
They, however, are expensive, and will not last long, as
the edges become worn down so fast that the bricks
made from the same mould at the beginning and end
of a season are of a different thickness, and cannot be
used together. This is a great defect, and a metal
mould which will not rust nor wear is still a great desi-
deratum. It is essential that the sides of the mould
should be sufﬁciently stiff not to spring when the clay
is dashed into it, and it is equally requisite that it
should not be made too heavy, or the taking-off boy
would not be able to carry it to the ﬂoor. A common

ART or MAKING BRICKS A‘ND. TILES. 31

copper mould weighs. about 41bs., and, with the wet
b‘i‘iblﬁn it, abOut '12 lbs. , and this weight should not
be exceeded.

32. There is a g1eat diffe1ence in the quantity of
bricks tu1ned out in a given time by the pallet moulding
and by the slop moulding processes. In slop moulding
10,000 per week is a high average, whilst a‘ London
moulder will turn out 36,000 and upwards in the same
period. This arises in a great measure from‘ the cir-
cumstance that in pallet moulding the moulder is
assisted by a clot moulder, who prepares the clot .|for
dashing into the mould; whilst in slop moulding the
whole operation is conducted by the moulder alone.

33. In some places the operation of mouldng par-.
takes both of slop moulding and pallet moulding, the
bricks being turned out on pallets and barrowed ‘to the
hack-ground, whilst the moulds are wetted as in the
ordinary process of slop moulding.

34s. The substitution of machine1y for manual labour
in the process of moulding has long been a favourite
subject for the exercise of mechanical talent ; but
although a great number of inventions have been pa-—.
tented, there are very few of them that can be said to
be thoroughly successful. The actual cost of moulding“
bears so small a proportion to the total cost of brick-
making, that in small brickworks the employment of
machinery would effect no ultimate saving, and, ‘there-
fore, it is not to be expected that machinery will ever
be generally introduced for brick moulding. But'in
works situated near large towns, or in the execution of
large engineering works, the case is very different, and
a contractor who requires, say, 10,000,000 of bricks, to
be made in a limited time, for the construction of a
tunnel or a viaduct, can employ machinery with great

32 RUDIMENTS or THE

advantage. A chapter on brickmaking machines will
be found in another part of this volume.

35. It has been much discussed by practical men,
whether bricks moulded under great pressure are better
than those moulded in the ordinary way. They are of
denser texture, harder, smoother, heavier, and stronger
_ than common bricks. On the other hand, it is difﬁcult
to dry them, because the surfaces become over-dried
and scale off before the evaporation from the centre is
completed. Their smoothness lessens their adhesion to
mortar 3 and their weight increases the cost of carriage,
and renders it impossible for a bricklayer to lay as
many in a given time as those of the ordinary weight.
On the whole, therefore, increased density may be con-
sidered as a disadvantage, although, for some purposes,
dense bricks are very valuable.

36. Mr. Prosser, of Birmingham, has introduced a.
method of making bricks, tiles, and other articles by
machinery, in which no drying is requisite, the clay
being used in the state of a nearly dry powder. The
clay from which ﬂoor-tiles and tesserae are made is ﬁrst
dried upon a slip-kiln,* as if for making pottery, then
ground to a ﬁne powder, and in that state subjected to
heavy pressure-f in strong metal moulds : by this means
the clay is reduced to one-third of its original thickness,
and retains sufﬁcient moisture to give it cohesion. The
articles thus made can be handled at once, and carried
direct to the kiln. In some experiments tried for ascer-
taining the resistance of bricks and tiles thus made to

“ The slip-kiln is a stone trough bottomed with ﬁre tiles, under which
runs a furnace ﬂue. It is used in the manufacture of pottery for evapo-
rating the excess of water in the slip, or liquid mixture of clay and ground
ﬂints, which is thus brought into the state of paste.

1' It is a common but an erroneous notion, that articles made by-Mr.

Prosser’s process are denser than similar articles made in the common.
way: the reverse is the fact.

ART OF MAKING BRICKS AND TILES. 3

a crushing force, a 9-inch brick sustained a pressure of
90 tons without injury.

37. Mr. Prosser’s method offers great advantages for
the making of ornamental bricks for cornices, bas-
reliefs, ﬂoor-tiles, tesselated pavements, &c. Screw
presses are used to a considerable extent for pressing
bricks when partially dry, to improve their shape and
to give them a smooth face; but we have in many in-
stances found pressed bricks to scale on exposure to
frost, and much prefer dressing the raw brick with a
beater, as described in chap. iii. art. 34.

38. The great practical difﬁculty in making moulded
bricks for ornamental work is the warping and twisting
to which all clay ware is subject more or less in the
process of burning. This difﬁculty is especially felt in
making large articles, as wall COpings, &c. In moulding
goods of this kind it is usual to make perforations
through the mass, to admit air to the inside, without
which precaution it would be impossible to dry them
thoroughly ; for, although the outside would become
hard, the inside would remain moist, and, on being
subjected to the heat of the kiln, the steam would crack
and burst the Whole.

The Brighton Viaduct, on the Lewes and Hastings
Railway, has a massive white brick* dentil cornice, the
bricks for which were made in Suffolk after several
unsuccessful attempts to make bricks of still larger size.
The thickness of the bricks ﬁrst proposed presenting an
insurmountable obstacle to their being properly dried,
their dimensions were reduced, and large perforations
were made in each brick to reduce its weight, and to
enable it to be more thoroughly and uniformly dried,

*‘ Brick was preferred to stone on account of the expense of the latter
material.

(:3

34» RUDIMENTS or THE

and by adopting this plan the design was successfully
carried into execution.

39. The usual form of a brick is a parallelopipedon,
about 9 in. long, 4%; in. broad, and 3 in. thick, the exact
size varying with the contraction of the clay. The
thickness need not bear any deﬁnite proportion to the
length and breadth, but these last dimensions require
nice adjustment, as the length should exceed twice the
breadth by the thickness of a mortar joint.

40. Bricks are made of a variety of shapes for par-
ticular purposes, as enumerated in art. 60, chap. iii. The
manufacture of these articles is principally carried on in
the country, the brickﬁelds in the vicinity of the metro-
polis supplying nothing but the common building brick.

41. A point of some little importance may be here
9dverted, to, viz., is any advantage gained by forming a
hollow in the bed of the brick to form a key for the
mortar ? There are various Opinions on this point ; but
we think it may be laid down as a principle, that if it is
useful on one side it will be still better on both, so as to
form a double key for the mortar. In London, the
brick mould is placed on a stock board, which is made
to ﬁt the bottom of the mould; and the relative positions
of the two being kept the same, no difﬁculty exists in
forming a hollow on the bottom of the brick, this being
effected by a kick fastened on the stock board. But
this could not he done on the upper side, which is
stricken level. In slop moulding, the mould is simply
laid on the moulding stool, or on a moulding board
much larger than the mould, and both sides of the brick
are ﬂush with the edges of the mould, no hollow being
left, unless the moulder think ﬁt to make one by scoring
the brick with his ﬁngers, which is sometimes done.
When machinery is used in moulding, it is equally easy

ART or MAKING BRICKS AND TILES. 35

to stamp the top and the bottom of the brick ; and we
have seen, at the Butterly Ironworks, in Derbyshire,
excellent machine-made bricks of this kind made in
the neighbourhood.

42. Amongst the many inventions connected with
brickmaking which have been from time to time brought
before the public, ventilating bricks deserve attention,
from the facilities they afford for warming and venti-
lating buildings.

The annexed ﬁgures show the form of the bricks and
the way in which they are used.

F 2'9. 1. Fig. 2.

 

Fig. 1 is a representation of a 9-in. wall, built With
the ventilating bricks, with one common brick used at
the angle of each course.

Fig. 2 is a representation of a let-in. wall; the half
ventilating brick, being used alternately in the courses,
forms a perfect and effectual bond. .

Fig. 3 is an isometrical drawing showing the ventl-
lating spacesr

DRYING.

43. The operation of drying the green bricks requires
great care and attention, as much depends upon the

36 RUDIMEN-I‘S or THE

manner in which they are got into the kiln. The great
point to be aimed at is to protect them against sun,
wind, rain, and frost, and to allow each brick to dry
uniformly from the face to the heart.

Slop-moulded bricks are usually dried on ﬂats or
drying ﬂoors, where they remain from one day to ﬁve or
six, according to the state of the weather. When spread
out on the ﬂoor they are sprinkled with sand, which
absorbs superﬂuous moisture, and renders them less
liable to be cracked by the sun’s rays. After remaining
on the ﬂoors until sufficiently hard to handle without
injury, they are built up into hacks under cover, where
they remain from one to three weeks, until ready for the
kiln. In wet weather they are spread out on the ﬂoor
of the drying shed, and great care must then be taken
to avoid drafts, which would cause the bricks to dry
faster on one side than the other. To prevent this,
boards set edgeways are placed all round the shed to
check the currents of air.

The quantity of ground required for drying bricks in
this manner is comparatively small, as they remain on
the ﬂoors but a short time, and occupy little space when
hacked in the hovels. The produce of a single moulding
stool by the slop-moulding process seldom exceeds
10,000 per week, and the area occupied by each stool is,
therefore, small in proportion. Half an acre for each
kiln may be considered ample allowance for the working
ﬂoor and hovel.

44. In places where brickmaking is conducted on a
large scale, drying sheds are dispensed with, and the
hacks are usually built in the open air, and protected
from wet, frost, and excessive heat, by straw, reeds,
matting, canvas screens, or tarpaulins ; all of which we
have seen used in different places.

ART OF MAKING BRICKS AND TILES. 37

45. Bricks intended to be clamp burnt are not dried
on ﬂats, but are hacked at once on leaving the moulding
stool, and remain in the hacks much longer than bricks
intended to be kilned. This is rendered necessary by
the difference between clamping and kilning. In the
latter mode of burning, the heat can be regulated to
great nicety, and if the green bricks, when ﬁrst placed
in the kiln, be not thoroughly dried, a gentle heat is
applied until this is effected. In clamping, however,
the full heat is attained almost immediately, and,
therefore, the bricks must be thoroughly dried, or they
would ﬂy to pieces. In the neighbourhood of London
a good moulder, with his assistants, will turn out from
30,000 to 40,000 bricks per week, and the clamps
contain from 60,000 to 120,000 bricks and upwards.

From these combined causes, the area occupied by_
each stool is greater than in making slop-moulded
bricks. In Mr. Bennett’s brick-ground at Cowley, ten
stools occupy twenty acres.

46. At the risk of wearying the patience of the
reader, we recapitulate the leading points on which
depends the difference of area required for each mould-
ing stool in making :—

Slop-moulded bricks, hacked under London pallet-moulded sand stocks,
cover, and burnt in kilns. burnt in clamps.

 

 

Dried one day on ﬂats . . . lst Hacked at once.

Closely stacked in hacks 17 } Bricks loosely stacked inhaeks,
2nd

courses high, placed close ailiceuriiiisﬂiughfémg icgdlhkf
together under cover . ’ . - p. L
tween the hacks.

Remain in shed 10 to 16 days 3rd Remain in hacks 3 to 6 weeks.
Rate of pioduction per stool, 4tl A gang will turn out 30,000 to
about 10,000 weekly. 1 { 40,000 per week.
. Kiln holds about 30 0,00 bricks, Clamp contains 60,000 to
and may be ﬁled once in 10} 5th { 120,000 bricks, and burns
days . . . . . from 2 to 6 weeks.

47’. It is scarcely necessary to observe that different

38 RUDIMENTS on THE

clays require different treatment, according to their
composition, some bricks bearing exposure to sun and
rain without injury, whilst others require to be carefully
covered up to keep them from cracking under similar
circumstances. [See Appendix]

Superior qualities of bricks are generally dressed with
a. beater when half dry, to correct any twisting or
warping which may have taken place during the ﬁrst
stage of drying.

BURNING.

48. Bricks are burnt in clamps and in kilns. The
latter is the common method, the former being only
employed in burning bricks made with ashes or coal-
dust. It should be observed, however, that the name of
clamp is applied also to a pile of bricks arranged for
burning in the ordinary way, and covered with a
temporary casing of burnt brick to retain the heat ; but
this must not be confounded with close-clamping as
practised in the neighbourhood of London.

49. The peculiarity of clamp burning is that each
brick contains in itself the fuel necessary for its vitriﬁ-
cation ; the breeze or Cinders serving only to ignite the
lower tiers of bricks, from which the heat gradually
spreads over the whole of the clamp. No spaces are
left between the bricks, which are closely stacked, that
the heat to which they are exposed may be as uniform
as possible. It is unnecessary here to go into the
details of clamping, as they are very fully given in
the account of London Brickmaking. [See also Ap-
pendix.] -

50. A kiln is a chamber in which the green bricks
are loosely stacked, with spaces between them for the
passage of the heat 3 and baked by ﬁres placed either

ART or MAKING BRICKS AND TILES. 39

m arched furnaces under the ﬂoor of the'kiln, or in ﬁre
holes formed in the side walls.

There are many ways of constructing kilns, and
scarcely any two are exactly alike ; but they may be
divided into three classes :—

1st. The common rectangular kiln with ﬁre-holes in
the side walls. This is formed by building four walls
enclosing a rectangular space, with a narrow doorway
at each end, and narrow-arched openings in the side
walls exactly opposite to each other. The bricks are
introduced through the doorways, and loosely stacked
with considerable art, the courses being crossed in a
curious manner, so as to leave continuous openings
from top to bottom of the pile to distribute the heat.
In the lower part of the kiln narrow ﬁnes are left, about
' 8 in. wide and about 2 ft. or 3 ft. high, connecting the
ﬁre-holes in the side walls. The kilns having been
ﬁlled, the doorways are bricked up and plastered with
clay to prevent the ingress of cold air; the top of the
kiln is covered with old bricks, earth, or boards, to
retain the heat, and theﬁring is carried on by burning
coal in the ﬁre-holes. A low shed is generally erected
on each side of the kiln to protect the fuel and ﬁreman
from the weather, and to prevent the wind from urging
the ﬁres. The details of the management of a kiln are
given in another place, and need not be here repeated.
This kind of kiln is he simplest that can well be
adopted, and is in use in Holland at the present day.
It is the kiln in common use through the Midland
districts.

2nd. The rectangular kiln with arched furnaces.
This consists also of a rectangular chamber ; but differs
from the ﬁrst in having two arched furnaces running
under the ﬂoor the Whole length of the kiln, the furnace

4O RUDIMENTS OF THE

doors being at one end. The ﬂoor of the kiln is formed
like lattice-work, with numerous openings from the
furnaces below, through which the heat ascends. The
top of the kiln is covered by a moveable wooden roof,
to retain the heat, and to protect the burning bricks
from wind and rain. These kilns are used in the east
of England.

3rd. The circular kiln or cupola. This is domed over
at the top, whence its name is derived. The ﬁre-holes
are merely openings left in the thickness of the wall,
and are protected from the wind by a wall built round
the kiln at a sufﬁcient distance to allow the ﬁreman
room to tend the ﬁres. These cupolas are used in Staf-
fordshire and the neighbourhood, and the heat employed
in them is very great. Drawings of a cupola are given
in chap. iv., with an account ‘of the manner in which
the ﬁring is conducted, and therefore it is unnecessary
to enter here upon any of these details.

51. The usual method of placing bricks in the kiln is
to cross them, leaving spaces for the passage of the heat,
but there are objections to this, as many bricks show
a different colour, where they have been most exposed
to the heat. Thus in many parts of the country, the
bricks exhibit a diagonal stripe of a lighter tint than
the body of the brick, which shows the portion that
has been most exposed. In burning bricks that require
to be of even colour, this is guarded against by placing
them exactly on each other.

On ﬁrst lighting a kiln the heat is got up gently, that
the moisture in the bricks may be gradually evaporated.

‘Vhen the bricks are thoroughly dried, which is
known by the steam ceasing to rise, the ﬁres are made
liercer, and the top of the kiln is covered up with
boards, turf, old bricks, or soil, to retain the heat. As

ART OF MAKING BRICKS AND TILES. 41

the heat increases, the mouths of the kiln are stopped
to check the draft, and when the burning is completed,
they are plastered over to exclude the air, and the ﬁres
are allowed to go out. After this the kiln is, or should
be, allowed to cool very gradually, as the soundness of
the bricks is much injured by: opening the kiln too
soon.

Pit coal is the fuel commonly used, and the quantity
required is about half a ton per 1,000 bricks ; but much
depends on the quality of the coal, the construction of
the kiln, and the skill with which the bricks are stacked.

Wood is sometimes used as fuel in the preliminary
stage of ﬁring, but not to a great extent. In a letter
received on the management of the Suffolk kilns, the
writer says, “ The usual mode of ﬁring bricks in Suffolk
is in a kiln. The one near me, belonging to a friend of
mine, is constructed to hold 40,000; it is about 20 ft.
long and 15 ft. broad, and is built upon two arched
furnaces that run through with openings to admit the
heat up. The bricks are placed in the usual way for
burning, by crossing so as to admit the heat equally
through, when the whole mass becomes red hot: the
ﬁrst three or four days, wood is burnt in what is called
the process of annealing; with this they do not keep up
a ﬁerce ﬁre. After this from 12 to 14 tons of coal are
consumed in ﬁnishing the burning. Private individuals
sometimes make and clamp 20,000 or 30,000 without a
kiln 3 then there is great waste, and the bricks are not
so well burnt. ‘

52. In the preceding pages we have brieﬂy sketched
the operations of brickmaking, and the principles on
which they depend. In the following chapters the
reader will ﬁnd these operations described in detail, as

practised in different parts 0/, , -‘coun-tgg ; it need
e‘v‘SE.LlERA‘?V .
UNIVERSITY/-

).
K F .._.q“ “

42 RUDIMENTS or THE

hardly be said that the illustrations might be greatly
extended, as there are scarcely two counties in England
in which the processes are exactly similar, but this
would lead us far beyond the limits of a Rudimentary
Treatise, and enough is given to show the student the
interest of the subject, and to enable him to think and
examine for himself. If he be induced to do this from
the perusal of these pages, the aim of this little volume
will have been completely fulﬁlled.

II. TILES.

53. The manufacture of tiles is very similar to that
of bricks, the principal differences arising from the thin-
ness of the ware, which requires the clay to be purer
and stronger, and renders it necessary to conduct the
whole of the processes more carefully than in making
bricks.

54. Tiles are of three classes, viz., paving tiles, roof-
ing tiles, and drain tiles.

Paving tiles may be considered simply as thin bricks,
and require no especial notice.

Rooﬁng tiles are of two kinds: pantiles, which are of
a curved shape, and plaintiles, which are ﬂat, the latter
being often made of ornamental shapes so as to form
elegant patterns when laid on a roof.

Pantiles are moulded ﬂat, and afterwards bent into
their required form on a mould. Plain tiles were
formerly made with holes in them for the reception of
the tile-pins, by which they were hung on the laths ;
but the common method is now to turn down a couple
of nibs at the head of the tile, which answer the same
purpose. '

Besides pantiles and plaintiles, hip, ridge, and

ART OF MAKING BRICKS AND TILES. 4:3

valley tiles, come under the denomination of rooﬁng
tiles; these are moulded ﬂat, and afterwards bent on a
mould, as in making pantiles.

Draining tiles belong to the coarsest class of ea1then-
ware. They are of various shapes, and are made in
various ways. Some are moulded ﬂat, and afterwards
bent round a wooden core to the proper shape. Others
are made at once of a curved form, by forcing the clay
through a mould by mechanical means. Tile-making
machines are now almost universally superseding manual
labour in this manufacture, and many machines of
various degrees of merit have been patented during the
last few years.

55. Besides the above articles, the business of a tileiy
includes the manufacture of tiles for malting ﬂoors,
chimney-pots, tubular drains, and other articles of
pottery requiring the lathe for their formation. We do
not, however, propose now to enter upon the potter’s
art, which, indeed, would require an entire volume, but
shall conﬁne ourselves to the description of the manu-
facture of rooﬁng tiles as made in Staffordshire, and at
the London tileries, adding a few words on the making
of tesserae and ornamental tiles as practised by Messrs.
Minton, of Stoke-upon-Trent.

56. In the country it is common to burn bricks>¥< and
tiles together, and as, in most places, the demand for
bricks is not great, except in the immediate vicinity of
large towns, where the demand is more constant, the
manufacturer generally only makes so many bricks as
are required to ﬁll up the kiln.

Where there is a great and constant demand for
bricks and tiles, their manufacture is carried on sepa-

'* In some places bricks and lime are burnt together.

411 RUDIMENTS or THE

rately, and tiles are burnt in a large conical building,
called a dome, which encloses a kiln With arched fur-
naces. There are many of these in the neighbourhood
of London, and, as we have described them very fully in
the chapter on London Tileries, we need say nothing
further. here on this subject.

57. The manufacture of draining tiles is one which
daily assumes greater importance on account of the
attention bestowed on agriculture, and the growing
appreciation of the importance of thorough drainage.
Any discussion on the best forms of draining tiles, or
the most advantageous methods of using them, would,
however, be out of place in this volume. Neither need
we say much on the practical details of the manufacture,
as it is exceedingly simple, and as regards the prepara-
tion of the clay, and the processes of drying and burning,
is precisely similar to the other branches of tile- making.
With 1egard to the process of moulding, there is little
doubt but that hand moulding will soon be entirely
superseded by machinery; and the discussion of the
merits of the numerous excellent tile-making machines
now offered to the public, although of great interest to
those engaged in the manufacture, would be unsuited to
the pages of a rudimentary work, even were it practi-
cable to give the engravings which would be necessary
to enable the reader to understand their comparative
advantages or defects.* A few words on the principal
features of the manufacture of drain tiles are, however,
required to enable the reader to appreciate its peculiar
character.

58. Bricks, paving tiles, and rooﬁng tiles, are little
required, and seldom manufactured, except in the neigh-

*A few details will be found in the chapter on Brickmaking by
Machinery.

ART OF MAKING BRICKS AND TILES. 45

bourhood of towns or of large villages, where the demand
is likely to be sufﬁciently constant to warrant the
erection of kilns, drying sheds, and other appurtenances
of a well-mounted brickwork. If a cottage is to be
rebuilt, a barn tiled, or it may be once in twenty or
thirty years a new farmsteadingerected in a rural dis-
trict, it is generally cheaper to incur the expense of
carting a few thousand bricks or tiles than to erect the
plant necessary for making these articles on the spot.

But with drain tiles the case is reversed. They are
‘most wanted precisely in situations where a brick-yard
would be an unproﬁtable speculation, viz., in the open
country, and often in places where the cost of carriage
from the nearest brick-yard would virtually amount to
a prohibition in their use, if they cannot be made on
the spot, and that at a cheap rate. What is wanted,
therefore, is a good and cheap method of making drain
tiles without much plant, and without erecting an expen-
sive kiln, as the works will not be required after sufﬁcient
tiles have been made to supply the immediate neighbour-
hood, and therefore it would not be worth while to incur
the expense of permanent erections. The making drain
tiles a home manufacture is, therefore, a subject which
has much engaged the attention of agriculturists during
the last few years, and it gives us great pleasure to
be enabled to give engravings of a very simple and
effective tile-kiln erected by Mr. Law Hodges, in his
brick-yard, and described in the Journal of the Royal
Agricultural Society, vol. v., part 2, from which publi-
cation we have extracted so much as relates to the
description of this kiln, and the cost of making drain
tiles in the manner recommended by him. [See Apo
pendix.]

59. We have already extended this sketch of the

~46 RUDIMENTS OF THE

general principles and practice of brick and tile making
beyond its proper limits, and must therefore pass on to
the practical illustrations of our subject.

The chapter “ On the Manufacture of Bricks and
Tiles in Holland” is reprinted from the third volume of
VVeale’s “ Quarterly Papers on Engineering,” and will
be read with interest on account of the great similarity
of the English and Dutch processes.

The account of brickmaking, as practised at Not-
tingham and the Midland counties, was written from
personal examination of brickworks in the vicinity of
Nottingham, and in the counties of Derby, Leicester,
and Lincoln, and has been carefully revised by a gen-
tleman long connected with one of the principal brick-
works near Nottingham.

The paper “011 Brickmaking, as practised in the
Staffordshire Potteries,” was contributed to this volume
by Mr. R. Prosser, of Birmingham, whose name is a
sufﬁcient guarantee for the value of the information
therein contained. The details for this paper were col-
lected by Mr. Prosser’s assistant, Mr. John Turley, of
Stoke; and the valuable analyses of brick-earths were
made for Mr. Prosser by Mr. F. C. VVrightson, of
Birmingham, at a considerable expense.

The description of brickmaking in the vicinity of
London has been drawn up with great care, and is the
ﬁrst illustrated account that has yet appeared of the
manufacture of clamp bricks. The drawings accom-
panying this paper, and that on the London Tileries,
are from the pencil of Mr. B. P. Stockman.

Professional engagements preventing a personal exa-
mination of the processes employed in brick and tile-
making in the vicinity of the metropolis, Mr. Stockman
kindly undertook this task, and to his persevering

ART OF MAKING BRICKS AND TILES. 47

energy and talent we are indebted for a great mass of
practical details embodied in these two chapters.

Lastly, in the Appendix are inserted various par-
ticulars relative to brickmaking which could not have
been introduced in any other part of the volume with-
out interrupting the continuity of the text. .

CHAPTER II.

ON. THE MANUFACTURE OF BRICKS AND TILES IN
HOLLAND. BY HYDE CLARKE, C.E.

I.-—BRICKS.

THE Dutch make a most extensive use of bricks, of
which they have several kinds. Not only are bricks
used for ordinary building purposes, and for furnaces,
but also in great quantities for foot pavements, towing-
paths, streets, and high roads. It may be observed,
that they have of late been used very effectively in this
country for the pavement of railway stations. The
paving bricks, or Dutch clinkers, are the hardest sort,
and are principally manufactured at Moor, a smal vil-
lage about two miles from Gouda, in South Holland.
The brick-ﬁelds are on the banks of the river Yssel,
from which the chief material is derived, being no other
than the slime deposited by the river on its shores, and
at the bottom. The slime of the Haarlem Meer is also
extensively used for this purpose, as most travellers
know. This is collected in boats, by men, with long

48 RUDIMENTS or THE

poles having a cutting circle of iron at the end, and a
bag-net, with which they lug up the slime. The sand
is also obtained by boatmen from the banks of the river
Maes. It is of a ﬁne texture, and grayish colour. The
hard bricks are made with a mixture of this slime and
sand, but in what proportions I am not informed.
River sand is recognised as one of the best materials
for bricks, and is used by the London brickmakers, who
obtain it from the bottom of the Thames, near Wool-
wich, where it is raised into boats used for the purpose.
For what are called in France, Flemish bricks, and
which are manufactured in France, Flanders, and on
the corresponding Belgian frontier, river sand is pre-
ferred, and is obliged to be obtained from the Scheldt.
At Ghent, and lower down, a considerable trafﬁc is
carried on in the supply of this material. The quantity
used there is about one cubic foot of sand per cubic
yard.

The slime and sand, being mixed, are well kneaded
together with the feet, and particular attention is paid
to this part of the process. The mixture is then depo-
sited in heaps. The mode of moulding and drying is
similar to that used elsewhere. Paving bricks are
generally about 6 in. long, 4« in. broad, and 1-2} in. thick.
Dutch clinks made in England are 6 in. long, 3 in.
broad, and 1 in. thick.

The house bricks and the tiles are made for the most
part at Utrecht, in the province of the same name, from
brick earth found in the neighbourhood. House bricks
are about 9% in. long, 4%- in. wide, and nearly 2 in. thick.

II.-—BRICK-KILNS.
The kilns are built of different sizes, but generally
on the same plan. Sometimes they will take as many

ART or MAKING BRICKS AND TILES. 49

as 1,200,000 bricks. A kiln for burning 400,000 bricks
at once is represented in the “ Memoirs of the Academy
of Sciences of France.” It is a square of about 33 ft. or
35 ft. long by 28 ft. or 30 ft. wide, closed in with four
walls of brick, 6 ft. thick at the base, and which slope
upwards outside to their extreme height, which is about
18 it. Some slope also slightly inwards, but in a dif-
ferent direction. Different plans are nevertheless
adopted with regard to the form of the external walls,
the great object being, however, to concentrate the heat
as much as possible. In the walls, holes are left for
six ﬂue-holes, and sometimes for eight or ten or twelve.
In one of the walls, in the breadth of the kiln, an
arched doorway is made, about 6 ft. wide and 12 ft.
high, by which the bricks are brought into the kiln.
The arrangements as to the doorway are also subject to
variation. The interior of the kiln is paved with the
bricks, so as to present a level base. The walls are laid
with mortar of the same earth from which the bricks
are made, and with which they are also plastered in-
side ; yet, notwithstanding the strength with which they
are built, the great power of the kiln ﬁre sometimes
cracks them. The kilns, I would observe, are not usually
covered in, but some of those for baking building-bricks
have roofs made of planks, and without tiles, to shelter
them from the wind and rain. Others are provided
with rush mats, which are changed according to the
side on which the wind blows. The matting also serves
for protecting the bricks against the rain, whilst the
kiln is being built up. A shed, or hangar, is put up on
each side of the kiln, in order to contain the peat turf,
or to shelter the ﬁre-tender, and to preserve the ﬁres
against the effects of wind. Such being the practice
with regard to rooﬁng, whentthe bricks are put into the
D

5O RUDIMENTS or THE

kiln, a layer, or sometimes two layers, of burnt bricks
is placed on the ﬂoor, laid lengthwise, about three-
quarters of an inch from each other, and so as to slope
a little from the parallel of the walls, that they may
the better support the upper rows, which are always
laid parallel to the walls. This layer is covered with
old rush mats, on which are arranged the dried bricks,
which are laid without intervals between them. It is
said that the mats serve to prevent the humidity of the
soil from penetrating to the bricks while the kiln is
being ﬁlled, which generally takes from about three
weeks to a month. This row of burnt bricks is so
placed as to leave channels or ﬂues of communication
with corresponding openings in the kiln walls. Six
layers of dried bricks having been put down, the next
three rows are made to jut over, so as to shut up the
channels or ﬂues. The layers are thus carried up to
about forty-ﬁve in number, the last two being of burnt
bricks, though in some kilns four layers of burnt bricks
are used for closing in. The crevices are secured with
brick earth or clay, on which sand is put; the door of
the kiln is then closed with one or two thicknesses of
burnt brick, then an interval of about 10 in. or 12 in.
ﬁlled in with sand, and this secured with walling, and
by a wooden strut. The object of the sand is to prevent
any of the heat from escaping through the crevices.

It is to be remarked that, in laying the bricks in the
kiln, as they are laid down, a cloth is put over them
and under the feet of the workmen, so as to prevent any
of the sand which might fall off, from getting down
and blocking up the interval or interstice which natu-
rally remains between each brick, and so interrupting
the passa e of the ﬂame, and causing an unequal heat
or combustion in the kiln.

The kiln being ﬁlled, a sufﬁcient quantity of peat turf

ART or MAKING BRICKS AND TILES. 51

is introduced into the ﬂues, of which one end is closed
up with burnt bricks, and the turf is set ﬁre to. The
turf used is from Friesland, which is reckoned better
than Holland turf, being lighter, less compact, and less
earthy, composed of thicker roots and plants, burning
quicker and with plenty of ﬂame, and leaving no ash.
The general time in Holland during which the supply
of turf by the ﬂues is kept up, is for about four-and-
twenty hours, taking care at ﬁrst to obtain a gradual
heat, and supplying fresh turf about every two hours.
The ﬁreman, by practice, throws the turfs in through
the small ﬁre openings, and as far in as he judges
necessary. When one side has thus been heated, the
ﬂue openings are closed, and the other ends opened for
four-and-twenty hours, and supplied with fuel 5 and this
alternate process is kept up for about three or four
weeks, the time necessary to burn large bricks. In
some kilns, however, the ﬁre is kept up for ﬁve or six
weeks, depending upon their size and the state of the
weather. A fortnight. or three weeks is, -‘ however,
sometimes enough for the clinkers.

The burning having been concluded, about three
weeks are allowed for cooling. It generally happens
that the mass of brick sinks in in some places, arising
partly from the diminution of volume produced by
burning, and partly from the melting of some of the
bricks which have been exposed to too great heat.

The quality of the bricks depends upon the degree
of burning to which they have been subjected. Those
from about a third from the middle of the top of the
a kiln, or near the centre, are black, very sonorous, com-
' pact and well shaped, breaking with a vitriﬁed fracture.
These are generally employed for cellars, reservoirs,
and cisterns, and are most esteemed.

o 2

52 RUDIMENTS or THE

NIL—TILES.

The tiles manufactured in Holland are ﬂat, hollow, S
shaped, or with a square opening in the middle to let
in a pane of glass, being much used for lighting lofts
and garrets all over the Low Countries. They are
either red, grey, or blue, or glazed on one side only.
The ﬂat paving tiles are about 8% in. square by 1 in.
thick; they are used principally for cisterns and for
bakers’ ovens. The clay for tiles, it is to be noted, is
in all cases more carefully prepared than that for bricks,
being ground up wet in a pugmill or tub, with a shaft
carrying half a dozen blades. By this means, roots,
grass, &c., are got rid of. The clay comes out of the
pugmill of the consistence of potters’ clay, and is kept
under a shed, where it is kneaded by women, with their
hands, to the rough form of a tile, on a table dusted
with sand. These pieces are carried off to the moulders,
who are two in number, a rough moulder and a ﬁnisher.
The tiles are then dried under sheds, and afterwards in
the sun. W’ith regard to the ﬂat paving tiles, they are
at ﬁrst rough-moulded about an inch larger than the
subsequent size, and a little thicker, and then laid out
to dry under a shed, until such time as the thumb can
hardly make an impression on them. They are then
taken to a ﬁnishing—moulder, who, on a table quite level
and slightly dusted with sand, lays one of the tiles, and
strikes it twice or thrice with a rammer of wood larger
than the tile, so as to compress it. He then takes a
mould of wood, strengthened with iron and with iron
cutting edges, and puts it on the tile which he cuts to
the size. The mould is of course wetted each time it is
used. The tiles are then regularly dried. In Switzer-
and and Alsace an iron mould is used.

ART OF MAKING BRICKS AND TILES. 53

IV.—TILE-KILNS.

The tile-kiln is generally within a building, and about
16 ft. long (in ordinary dimension), 10 ft. wide, and
10 ft. high. The walls are from 4%; ft. to 5 ft. thick,
secured outside with great beams, and so secured to-
gether as to form a square frame. Some of the largest
of them are pierced with four ﬂue-holes, as-in brick-
kilns ; but the ﬁnes are formed by a series of brick
arches, about 2% ft. wide by 16 in. high. The opening
of the ﬂue-hole is about 10 in. by 8 or 9 in. high. On
their upper surface, these series of arches form a kind
of grating, on which the tiles are laid. The kiln is
covered in at top with a brick arch, pierced with holes
of different sizes. The kilns are charged from an open-
ing which is constructed in one of the side walls, which
opening is, of course, during the burning, blocked up
and well secured. The fuel used is turf, as in the brick-
kilns, and the ﬁre is kept up for forty hours together,
which is considered enough for the burning. Three
days are then allowed for cooling, and they are after-
wards taken out of the kiln. Those tiles which are to
be made of a greyish colour are thus treated. It having
been ascertained that the tiles are burnt enough, and
while still red hot, a quantity of small fagots of green
» alder with the leaves on is introduced into each ﬁne.
The ﬂue-holes are then well secured, and the holes in
the roof each stopped with a paving tile, and the whole
: surface is covered with 4 in. or 5 in. of sand, on which
a quantity of water is thrown, to prevent the smoke
‘ from escaping anywhere. It is this smoke which
. gives the grey colour to the tiles, both internally and
externally. The kiln is then left closed for a week, when
the sand is taken off the top, the door and roof-holes

 

54: RUDIMENTS or THE

are opened, as also the ﬂue-holes, and the charcoal
produced by the fagots taken out. Forty-eight hours
after, the kiln is cool enough to allow of the tiles being
taken out, and the kiln charged again. Whenever any
of the tiles are to be glazed, they are varnished after
they are baked; the glaze being put on, the tiles are
put in a potter’s oven till the composition begins to
run. The glaze is generally made from what are called
lead ashes, being lead melted and stirred with a ladle
till it is reduced to ashes or dross, which is then sifted,
and the refuse ground on a stone and resifted. This
is mixed with pounded calcined ﬂints. A glaze of
manganese is also sometimes employed, which gives a
smoke-brown colour. Iron ﬁlings produce black ;
copper slag, green 5 smalt, blue. The tile being wetted,
the composition is laid on from a sieve.

The manufacture of tiles, as already observed, is
principally carried on near Utrecht, in the province of
Holland, which, like most of the great cities of Hol-
land, has facilities for the transportation of its produce
by water communication all over the country.

Gouda is a great seat of the pottery and tobacco-pipe
manufactures, of which formerly Holland had a virtual
monopoly, with regard to foreign trade, exporting largely
Delft ware, Dutch porcelain, tobacco-pipes, bricks,
Flanders’ bricks, painted tiles, and paving tiles. The
manufacture of painted tiles, for the decoration of the
old ﬁreplaces, was very extensive 3 and an inﬁnite variety
of designs, principally on Scripture subjects, employed
many humble artists. This, however, is almost of the
past. The manufacture of tobacco-pipes was another
great business, suitable to the consumption of tobacco
by the Netherlanders. Gouda alone had, at one
time, as many as 300 establishments for the pro-

ART or MAKING BRICKS AND TILES. 55

duction of this article of trade. The manufacture of
tobacco-pipes is still a large manufacture in England,
much more considerable than is generally supposed;
While manufactures of bricks and porcelain constitute a
staple means of employment for many thousands of
our pepulation

A great part of these descriptions, it will be seen,
strictly apply to our own practice‘, and are trite enough
. and trivial enough 3 but in matters of this kind, there
is nothing lost by being too minute, and it is always
safe. In the present case, it is worth knowing these
things, for the sake of knowing that there is no
difference.

 

CHAPTER III
BRICKMAKING as PRACTISED AT NOTTINGHAM.

l. The mode of making bricks at Nottingham and
the neighbourhood presents several peculiarities, of which
the principal are :—

1st. The use of rollers for crushing the brick-earth.
2nd. The use of copper moulds.
3rd. The hacking of the bricks under cover.

2. The use of copper moulds is not conﬁned to the
immediate neighbourhood of Nottingham, but has been
for some years gradually” extending to other districts,
and Will probably, sooner or later, become general
throughout the country for the manufacture of superior
qualities of bricks.

3. It may be proper here to say a few words on the
object of grinding the clay, so generally practised
throughout Staﬂ'ordshire, Derbyshire, Nottinghamshire,
and Lincolnshire, and probably in many other places.

 

56 RUDIMENTS or THE

In many brickworks the earth used is not pure clay,
but a very hard marl, which cannot be brought into a
state of plasticity by the ordinary processes of weather-
ing and tempering without bestowing upon it more
time and labour than would be repaid by the value of
the manufactured article. The expedient of grinding
is, therefore, resorted to, which reduces the earth to any
state of ﬁneness required, according to the number of
sets of rollers used, and the gauge to which they are
worked, all hard lumps and pieces of limestone,* which
would otherwise have to be picked out by hand, being
crushed to powder, so as to be comparatively harmless.

4. The advantages and disadvantages of the use of
rollers may be thus brieﬂy stated,—

lst. A great deal of valuable material is used which
could not be made available for brickmaking by
the ordinary processes.

2nd. The process of grinding, if properly con-
ducted, greatly assists the operations of the
temperer by bringing the earth into a ﬁne state,
quite free from hard lumps.

On the other hand:

The facilities afforded by the use of rollers for working
up everything that is not too hard to be crushed by
them, induce many brickmakers to make bricks without
proper regard to the nature of the material. A common
practice is to work the rollers to a wide gauge, so that
comparatively large pieces of limestone are suffered to
pass through without being crushed by them. Where
this has been the case, it need hardly be said that the
bricks are worthless. They may appear sound, and

* It may be necessary to explain, that all pebbles and hard stones must
be picked out by hand before grinding; where the brick earth used is
much mixed with gravel, the only resource is the use of the washjmill.

ART or MAKING BRICKS AND TILES. 57

may have a tolerable face, but rain and frost soon destroy
them, and, in situations where they are exposed to the
weather, they will become completely perished in a very
few years.

5. The following description of the mode of making
bricks at Nottingham will apply pretty faithfully to the
practice of the brick-yards for many miles round. It
will, of course, be understood that in no two yards is
the manufacture carried on in exactly the same way,
there being differences in the designs of the kilns, the
arrangement of the buildings, and other points of
detail, which may be regulated by local circumstances,
or which, from the absence of any guiding principle,
may be left to chance; the general features, however,
are the same in all cases.

6. Brick-earth.—The brickmakers of Nottingham
and its immediate vicinity derive their supplies of brick-
earth from the strata of red marl overlying the red
sandstone on which the town is built, and which in its
turn rests on the coal-measures, which make their
appearance at a short distance to the west of the town.

The banks of the river Trent present many good
sections of these strata, as at the junction of the rivers
Trent and Soar; where they are pierced by the Red
Hill tunnel, on the line of the Midland Railway; and
at Radcliff-on-Trent, where they form picturesque cliffs
of a red colour covered with hanging wood; and they
are exposed to view in many places in the immediate
vicinity of Nottingham, as in the cutting for the old
road over Ruddington Hill, in the Colwick cutting of
the Nottingham and Lincoln Railway, and Goose Wong
Road, leading to Mapperly Plains.

The marl abounds with loose and thin layers of slcerry,
or impure limestone, and in many places contains veins

D 3

 

58 RUDIMENTS or THE

of gypsum, or, as it is called, plaster stone, which are
extensively worked near Newark, and other places, for
the manufacture of plaster of Paris.

The water from the wells dug in these strata is
strongly impregnated with lime.

7. The colour of the bricks made at Nottingham and
in the neighbourhood is very various. For making red
bricks the clay is selected with care, and particular beds
only are used. For common bricks the earth is taken
as it comes, and the colour is very irregular and unsatis-
factory, varying from a dull red to a dirty straw colour.
Some of the marl burns of a creamy white tint, and
has been lately used with much success in making
ornamental copings and other white ware.

8. In the manufacture of common bricks no care is
taken in the selection of the clay, and it is worked up
as it comes to hand indiscriminately, the great object
If the manufacturer being to clear his yard ; the same
price being paid for all clay used, whatever its quality.

Stones and pebbles are picked out by hand, but the
pieces of limestone are generally left to be crushed by
the rollers, and much bad material is worked. up in this
way which could not be made use of if the tempering
were effected by treading and spade labour only.

There are, however, many beds which are sufﬁciently
free from limestone not to require grinding, and when
these are worked the rollers are not used.

9. For front bricks, and the superior qualities, the
clay is selected with more or less care, receives more
preparation previous to grinding, is ground ﬁner, and
is sometimes left to mellow in cellars for a considerable
time before using.

10. For making rubbers for gauged arches, the clay
is carefully picked, and run through a wash-mill into

ART or MAKING BRICKS AND TILES. 59

pits, where it remains until by evaporation and settle.
ment it has attained a proper degree of consistency.
The clay for this purpose is generally mixed with a cer-
tain quantity of sand to diminish the labour of rubbing
the bricks to gauge, the proportion varying according
to the quality of the clay. The sand used for this
purpose is the common rock sand, which burns of a
red colour. \

11. The clay immediately near the town of Notting-
ham is not well suited for making rooﬁng tiles, the
ware produced from it being generally very porous.
This statement, however, is not to be taken without
exceptions, as there is plenty of suitable clay for the
purpose within a few miles’ distance.

12. The old houses in Nottingham are built with very
thin bricks, much of the old brickwork gauging 10-33 in.
to 4 courses in height, including mortar joints. These
bricks are of a dark red colour, and were from works
that have been long since abandoned. The bricks now
made are much thicker, the walls of many new build-
ings gauging 21 in. to '7 courses in height, or about
13% in. to 4 courses in height, including mortar joints.
The common bricks are of a very uneven colour, which
arises partly from the manner in which they are set in
the kiln, and partly from the want of care in selecting
the clay, and the quantity of limestone ground up with
it. From this circumstance the fronts of many of the
new buildings have a mottled appearance, which is
extremely unsightly.

GENERAL ARRANGEMENT OF A BRICKWORK.

13. The brick-yards from which the town of Not-
tinghain is at present supplied are situated on the
slopes of a small valley along which runs the public

60 RUDIMENTS or THE

road from Nottingham to Southwell, and, being situ-
ated on the sides of the hills, great facilities exist for
draining the workings and for bringing the ground into
cultivation again after the clay has been exhausted.

14. The proprietor of a brickwork usually rents the
required land from the owner of the soil, at a price per
acre, and in addition to the rent pays for all clay dug,
Whatever its quality, at a set price per thousand bricks
made and sold, exclusive of those used for the erection
and repairs of the buildings and works.

* A more particular description of the engravings will be found at

pages 92—94.

 

ART OF MAKING BRICKS AND TILES. 6]

15. The arrangement of the several buildings varies
with each yard more or less 3 but the principle on
which they are laid out is the same in all cases, viz., to
advance towards the kiln at each process, so as to avoid
all unnecessary labour. This will be understood by
inspection of ﬁg. 1, which, it must be understood, is not
an exact representation of a particular brickwork, but a
diagram to explain the principle of arrangement usually
followed. The pits from which the clay is dug are at
the rear of the works, and at some little distance from
them is placed the clay-mill, which, to save labour in
wheeling the clay, is shifted from time to time as the
workings recede from the kiln by the exhaustion of the
clay. This is, however, not always done, as, where the
mill has been ﬁxed in a substantial manner, the saving
in labour would not repay the cost of re-erection.

The hovel or drying shed generally forms two sides
of a rectangular yard adjoining the public road, the
kiln being placed as close to the hovel as practicable,
and the working ﬂoors or ﬂats in the rear of the latter.
By this concentration of plan, the distance to which
the bricks have to be carried between the successive
processes of moulding, drying, hacking and burning is
reduced to a minimum, which is an important point to
be attended to, as the raw bricks are shifted by hand
and not barrowed.

As it is not always possible to obtain a supply of
water at those parts of the works where it is wanted
to be used, a water-cart* is kept at some yards for this
purpose, the supply being taken from a pond into which
the drainage of the works is conducted.

"‘ The water-cart is seldom used. except where the water has to be
fetched a considerable distance—indeed rarely, but in times of drought.

It is usually carried, in the yard, in buckets with yokes, as in the time of
Pharaoh.

62 RUDIMENTS or THE

The goods for sale are stacked in the open part of
the yard as near the public road as practicable.

16. Clay-ﬂIill.—The machinery used in grinding the
clay is very simple. The clay-mill consists of one or
more pairs of cast-iron rollers, set very close together
in a horizontal position, and driven by a horse who
walks in a circular track, and, by means of the beam to
which he is attached, puts in motion a horizontal bevelled
driving-wheel placed at the centre of the horse track.
A horizontal shaft connected at one end with one of
the rollers by a universal joint, and having a bevelled
pinion at the other end, communicates the motion of
the driving-wheel to the rollers by spur-wheels keyed
on their axles. The clay is tipped in a wooden hopper
placed over the rollers, and passing slowly between the
latter falls on a ﬂoor about 8 feet below them, where
it is tempered for the moulder.

17. The common clay-mill has only one set of rollers,
but the addition of a second set is a great improvement.
In this case the bottom rollers are placed almost in
contact with each other, and should be faced in the
lathe to make them perfectly true. If only one set be
used this is a useless expense, as the gauge to which
they are worked is too wide for any advantage to be
derived from it.

18. Figures 2, 3, 4« represent a one-horse mill with
a single pair of rollers 18 in. in diameter, and 30 in.
long, manufactured by Messrs. Clayton and Shuttle-
worth, of Lincoln, who kindly furnished the drawings
from which the engravings have been made. The
detailed description of the several parts will be found
in art. 69.

63

ART OF MAKING BRICKS AND TILES.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

RUDIMENTS OF THE

 

   

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ART or MAKING BRICKS AND TILES. 65

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This is a very good mill, of simple construction, and
not expensive, the cost when ready for ﬁxing (exclusive
of foundations and brickwork.) being £35.

It cannot be too strongly insisted upon that the
machinery should be boxed up close, so as to prevent
stones or clay from clogging the wheels, as where this

06 RUDIMENTS or THE

is not done the machinery will unavoidably become
deranged in a very short time.

19. In manylyards, the horse-track is raised to the
level of the top of the hopper, so that none of the
machinery is exposed. A very good arrangement of
this kind is shown in ﬁg. 5, of which a detailed descrip-
tion is given in art. 69.

20. The quantity of work performed will of course
vary greatly, according to the distance between the
rollers and the consequent ﬁneness to which the clay is
ground. One mill will grind sufﬁcient clay to keep six
moulders fully employed, and therefore there are very
few yards in which the rollers are constantly in work.

21. The length of time during which a clay-mill will
last in good working condition is chieﬂy regulated by
the wear of the rollers. If the iron is of very uniform
quality, and care be taken to pick out all the pebbles
from the clay, a pair of rollers will last many years.
The other parts of the machinery will last with care for
an indeﬁnite length of time.

22. Wash-mill.—The wash-mill is used only in the
manufacture of arch bricks, and does not differ from
that used in other places. The only one visited by the
author consists of a circular trough, lined with brick-
‘work, in which the clay is cut and stirred up with
upright knives fastened to a horse-beam. From this
trough, the slip runs through a grating into a brick
tank, where it remains until by evaporation and settle-
ment it becomes sufﬁciently consolidated for use.

23. The Pug-mill is not used in the Nottingham*
brick-yards; the tempering of the clay, after grinding,
being effected by treading and spade labour. Instead
of the clay being tempered directly after grinding, it is

"‘ It is, however, used in the neighbourhood.

67

ART OF MAKING BRICKS AND TILES.

 

 

             

     

 

 

 

 

 

 

 

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68 RUDIMENTS or THE

sometimes deposited to ripen in damp cellars for a year
or more. This is done for the best bricks only.

24. The Moulding Sand used is the common rock
sand, which burns of a red colour. In making white
bricks this is a great disadvantage, as it causes red
streaks, which greatly injure their colour. The sand is
only used to sprinkle upon the table to prevent the clay
from adhering thereto, and therefore sand with a sharp
grit is preferred.

25. The Moulding Table is shown in ﬁg. 6. It is

F 29 6.

 

ART or MAKING BRICKS AND TILES. 69

furnished with a sand-box, which is sometimes ﬁxed to
the table, as shown in the cut, and sometimes detached,
and with a water-box, in which the moulder dips his
hands every time he moulds a brick. In the operation
of moulding, the moulder stands in front of the table,
with the water-box immediately in front of him, the
tempered clay at his right hand, and the sand-box at
his left. ,A sloping plank is placed at one end of the
table to enable the boy who briiigs the clay from the
temperer to deposit it more conveniently on the table.
The boy who takes off the newly-made bricks, and
brings back the empty mould, stands on the side of the
table opposite the moulder, to the right of the water-
box, in which he washes his hands after each journey,
to prevent the clay from drying on them.

The cost of a moulding table varies according to the
care with which it is made. Such a one as shown in
the cut will cost about 203., and will last, with occasional
repairs, for several years. The part where the brick is
moulded soon becomes worn, and has to be cased as
shown in the cut. This casing extends over the part
where the brick is taken off by the carrier boy; but, as
the wear is not uniform over this space, the casing is in
two or more pieces, the part where the brick is moulded
wearing much faster than the others, and requiring
renewal sooner.

It is of importance that the drippings from the table
should not fall on the drying floor, as they would render
it slippery and unﬁt for use; a rim is therefore placed
at one end, and along a part of one side of the table,
and the opposite side is furnished with a kind of apron
and gutter, by means of which the slush is conducted to
a tub placed under one corner of the table, but which is
not shown in the cut.

7O RUDIMENTS or THE

26. Brick 1W0ulds.—Until lately the moulds used
were made of wood, but these have been almost entirely
superseded by brass, or, as they are technically called,
copper, moulds.

Fig. 7. There are several
. different ways in
which these moulds
are made. Some-
times the brass work
is merely an inside
lining, screwed to a
wooden mould; but
the best construction
appears to be that
shown in ﬁg. 7, in which the mould is of brass, cast in
four pieces, and riveted together at the angles, the wood-
work being in four distinct pieces and attached to the
brass mould by the angle rivets. These moulds are
costly, and formerly a pair of moulds cost £2, but they
may now be had for £1 5.9. the pair.

It will be seen, by reference to the engraving, that the
brass overlaps the woodwork all round the mould on
each side, and these portions of the mould wear away
very rapidly, so that the bricks made at the close of the
season are considerably thinner than those made at its
commencement. This renders it necessary to renew the
projecting rims from time to time as they become worn
down with use, and this will require to be done every
season if the mould has been in constant use. It is an
expensive operation, as the new rim has to be brazed on
to the old part, and this must be done with great nicety,
and so as to make a perfectly ﬂush joint on the inside
of the mould, or the latter would be rendered useless.
The cost of plating a pair of moulds is nearly the same

 

ART or MAKING BRICKS AND TILES. 71

as their original cost, 203. being charged for the opera-
tion, and therefore it would be preferable to use the
moulds until they are quite worn out, and then to replace
them with new ones.

27. The use of copper moulds is conﬁned to the
making of building bricks, and quarries for paving
ﬂoors, their weight and great \cost preventing their
employment for larger articles. '

28. The mould has no bottom as in the London '
practice, nor is it placed upon a raised moulding board
as in Staffordshire; but rests on the moulding table
itself, the top and bottom beds of the brick being formed
at two distinct operations with a little instrument called
a plane.

29. The Plane, ﬁg. 8, is usually Fly. 8-
made 9 in. long by 3 in. bread,
with a handle at one end. Its use
is to compress the clay in the
mould, and to work over the tOp
and bottom beds of the brick to
give them an even surface.

The strike is not used at Nottingham.

30. The Flats, or working ﬂoors, are prepared with
care, by levelling and rolling, so as to make them hard
and even, and are laid out with a slight fall, so that no
water may lodge on them. They are well sanded, and
constant care is requisite to keep them free from weeds.
Their usual width is about 10 yards. In unfavourable
weather a single moulder will sometimes have as many
as 7,000 bricks on the ﬂats at once, for which an area
of from 300 to 400 superﬁcial yards will be required.
This, however, is an extreme case, and in good drying
weather a moulder does not require more than half that
extent of ﬂoor, or even less than this.

D

 

72 RUDIMENTS OF THE

31. The Havel, or drying shed, in which the bricks
are hacked, is generally built in the roughest and
cheapest manner possible, with open sides and a tiled
roof, supported by wooden posts or brick piers; the
width of the hovel is about 18 ft., or rather more than
the length of a hack, but the eaves are made to project
a couple of feet or so beyond this distance, in order to
give additional shelter from the rain, for which reason,
as well as for the sake of economy, the eaves are carried
down so low as to make it necessary to stoop to enter
the shed.

Some of the hovels have ﬂues under the ﬂoor, the
ﬁre-places being placed in a pit sunk at one end of the
hovel, and the chimney at the opposite end. These
ﬁnes are made use of when the demand for bricks is
so great that sufﬁcient time cannot be allowed for dry-
ing in the open air, and also during inclement seasons.
The sides of the hovel are then walled up with loose
brickwork to retain the heat. No speciﬁc rule can be
given for the relative sizes of the hovel and the drying
ﬂoor. The common practice appears to be to make
them of the same length, which allows ample room,
and enables the moulder to keep a portion of his shed
always available as a drying ﬂoor when the weather is
too wet to allow of the bricks being laid out on the
ﬂats. When this is the case the moulder protects the
raw bricks from drafts, by surrounding them with a
skirting, so to speak, of planks. This is a very neces-
sary precaution, for the currents of air from different
parts of the shed would cause the bricks to dry un-
equally, and they would crack and become unsound.
Matting is frequently hung up at the sides of the hovel
for this purpose, and is also much used in some yards
to prevent the ﬁner clays, when tempered, from drying

ART OF MAKING BRICKS AND TILES. 73

too rapidly where cellars are not provided for that
purpose.

32. The above description applies to the ordinary
hovel, but the best front bricks are dried wholly under
cover in a brick hovel inclosed by walls on all sides,
and furnished with ﬂues, by which the place is kept
at a regular temperature. The .xcxpense, however, of
conducting the whole of the drying under cover in
this manner is too great to allow of its general adop-
tion.

33. The clapper, ﬁg. 9,
is simply a piece of board
12 in. by 6 in. with a
handle on one side. It
is used to ﬂatten the sur-
Faces of the bricks as
they lie on the ﬂoors,
mad the bricks are also
watch with it during the process of hacking, to correct
my warping which may have taken place in the ﬁrst
stage of drying.

3-l. Dressing Bench.—
S‘ig. 10. This is simply a
tout bench, to which is
ltted a plate of cast-iron,
in which the best front
bricks are rubbed or 120-
ished, to make them per-
ectly true and even; the
rorkman, at the same time,
eating them with a wedge-shaped beater, tipped with
fon, called a dresser, ﬁg. 11. This operation toughcns
he brick, corrects any warping which may have taken
lace, and leaves the arrises very sharp.

E

 

 

74: RUDIMENTS or THE

35. Machinery for
pressing Bricks. — In
some yards screw
presses are used for
pressing front bricks,
and with considerable
success. It is, however,
questionable whether
they are as durable as
those dressed by hand. In making machinery for this
purpose the great desiderata are, 1st, to make the metal
mould in which the brick is compressed so strong that
it shall not spring on the application of the power 3 and,
2nd, that the piston shall exactly ﬁt the mould: when,
from bad workmanship or long use, this is not the case,
the clay is forced between the piston and the mould for
a short distance, leaving a slightly-raised edge all round
the side of the brick.

36. We do not propose here to enter upon a com-
parison of the respective merits of machine-pressed
bricks and those dressed by hand. The operation of
dressing on the bench requires an experienced work-
man, whilst a common labourer can use a machine.
For this reason machine-pressed bricks can be pro-
duced much cheaper than those dressed by hand,

 

and there is little inducement to employ the latter‘

process.

37. Kim—The kilns vary considerably as regards.

their dimensions and constructive details, but they are
all built on the same principle.

The kiln shown in ﬁgs. 12, 13, 14, 15, 16, and 17, is -
a good one, though rather weak at the angles, andi

will convey an idea of the general construction. (See
chap. ix., page 210.\

ART or MAKING BRICKS AND TILES. 75

Fig. 12.

 

 

 

 

. It consists of four upright walls, inclosing a rectangu-
lar chamber. The ﬂoor is sunk about 4« ft. below the
general surface of the ground, and is not paved. The
doorways for setting and drawing the kiln are merely
narrow openings at the ends of the kiln, raised a step
above the ground, and about 5 ft. from the ﬂoor. The
ﬁre-holes are arched openings opposite each other on
the sides of the kiln, lined with ﬁre bricks, which require
to be renewed from time to time, generally every season:
The width of these holes is reduced to the required space
.E 2

76 , RUDlMENTS OF THE

by temporary piers of brickwork, so as to leave a
narrow opening about 8 in. wide and about 3 ft. high.
This will be understood by reference to ﬁg. 12, in which

Fig. 13.

 

 

 

   

I II
J <—;————-—-10. 0.- "——

L

 

 

 

 

 

 

 

 

 

 

 

 

ART or MAKING BRICKS AND TILES. 77

- Ml
l m§%

Fig. 15.

 

 

 

 

 

 

 

 

 

 

 

 

  

I //

the dark shading shows the ﬁre-brick lining, and the
unshaded parts the temporary piers.

On each side of the kiln a pit is sunk to the level of
the ﬂoor, and covered with a lean-to roof, which protects
the fuel and the ﬁre-man from the weather, and prevents
the wind from setting against the ﬁres. The walls of
the kiln are about 3 ft. thick, and are built of old bricks,
rubble stone, and the refuse of the yard. No mortar is
used, as the use of lime would destroy the brickwork,

78 RUDIMENTS or THE

under the intense heat to which the walls are exposed.
The bricks are therefore set in loam or ﬁre-clay, if it
can be readily procured. The ﬁre-bricks for lining the
ﬁre-holes are sometimes brought from Ilkeston, where
excellent ﬁre-clay is worked, but it is most common to
make them at the yards with such clay as can be got
in the neighbourhood, which answers pretty well. This
clay is brought from the neighbouring collieries, and
is obtained when sinking shafts ; there is no ﬁre-clay
at any of the Nottingham yards.

38. Instead of being built with walls of parallel
thickness, resting on arches, as in the example just
described, some kilns are built with walls of great
thickness at bottom, and diminishing by set-oil's until,
near the top of the kiln, they are comparatively thin.
Many kilns also are provided with massive buttresses
at the angles, with the intention of counteracting
the tendency which the walls have to lift themselves
with the heat.

Very great care is requisite in drying a newly-built,
kiln, or the walls will be cracked at the ﬁrst ﬁring, and
the thicker the walls the greater the care necessary.

39. So long as the brickwork is sufﬁciently thick to
retain the heat, no purpose is attained by increasing
the strength of the walls, unless they are made so
massive that they are unaffected by the heat externally,
and heavy enough to counteract the lifting cause by the
expansion of the sides exposed to the ﬁre. In the one
case the walls expand bodily with the heat, forming
large and dangerous cracks; in the other, separation
takes place between the inside and outside of the walls,
from the expansion of the parts most exposed to the
heat, and the kiln soon requires relining.

40. The kiln shown in ﬁgs. 12 to 17 is an example

ART or MAKING BRICKS AND TILES. 79

10y.18.

, ,mwﬁ”“-
m. WWW“ i} r”...._ ‘\

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of the mode of building with walls of the same thick-
ness top and bottom 5 that shown in ﬁg. 18 is one of a
more massive construction, and has buttresses at the
angles. The upper part of this kiln is formed by build-
ing, in a temporary manner, a thin parapet round the
inside of the top of the walls, about a couple of feet in
height. This expedient is often resorted to for the sake
of increasing the capacity of a kiln at a small expense.

41. Some of the kilns are provided with a ﬂight of
steps by which access is obtained to the top, in others
ladders are used for this purpose. Many of the kilns
have also a kind of light fence round the top, made of
rough poles. This serves as a protection from falling,
and as a scaffold to which screens may be hung in
windy weather to keep the wind from setting 011 the
top of the kiln. This fence is shown in ﬁg. 2. The
outside staircase is shown in ﬁgs. 1, 13, and 16.

42. The sizes of the kilns vary considerably. A
kiln such as that shown in ﬁgs. 12 to 1'7, 20 ft. long,
10 wide, and 12 ft. high, will, with the addition of a
parapet, burn 25,000 bricks at once, and will require
rather more than that number of bricks for its erection.
The cost of such a kiln would be from £30 to £50, the
value of the materials being almost nominal.

The capacity of a kiln may be roughly calculated on
the assumption that ten bricks require a cubic foot of
space in the kiln, but much, of course, will depend on

‘ mum " .“lmg‘uli
) IV ' /
mmmmmwﬂ 3 in »

'M‘Wﬁ‘

 

 

W“ ”N. WWW

80 RUDIMENTS or THE

the nature of the clay and the amount of shrinkage
before burning.

43. A well-built kiln will last for many years with
occasional repairs.

PROCESS OF BRICKMAKING.

44. Clay digging—The clay or marl is, or should be,
dug in the autumn, and collected in large heaps at the
bottom of the slopes, to be mellowed by the winter frosts.
These heaps are shown in ﬁg. 1.

The cost of this operation varies from 18. to ls. 9d.
per 1,000 bricks, according to the labour of getting the
clay, and the distance to which it has to be wheeled.

45. Temperz'ng.——In the spring the clay is turned over
by spade labour, being at the same time well watered
and trodden. The pebbles and large lumps of lime-
stone are picked out by hand with more or less care.
The prepared clay is then wheeled to the mill, and
tipped into the hopper. Sometimes the clay, after
being ground, is at once tempered for use on the ﬂoor
beneath the rollers; but for the best bricks, as before
stated, it is allowed to remain in cellars to ripen for a
year or more.

46. The temperer is generally paid by the moulder,
who contracts for tempering, moulding, and hacking at
a price per 1,000. The cost of tempering for common
bricks is about 1.9. 362., exclusive of the cost of horsing
the mill, which is borne by the proprietor of the yard.

One temperer will keep one moulding-table constantly
supplied, and will also assist the moulder in getting up
his bricks from the ﬂoor.

47. Moulding.—-A sufﬁcient quantity of clay having
been prepared on the tempering ﬂoor, one of the
moulder’s boys takes up as large a lump as he can

ART OF MAKING BRICKS AND TILES. 81

conveniently carry, and, placing it on his head, walks
with it to the moulding table, and walking up the
sloping plank, deposits it at the end of the table, to the
right hand of the moulder at B, ﬁg. 6.

The moulder having sprinkled some dry sand over
the part of the table marked D, takes from the heap of
tempered clay a piece sufﬁcient to make a brick, and
kneads this clot with his hands on the sanded part of
the table, so as to bring it apprdximately into shape.
He then raises the clot in the air, and dashes it with
some force into the mould, striking off the superﬂuous
clay with his ﬁngers. He then dips his hands into the
water-box, and, with very wet hands, works over the
face of the brick, so as to force the clay perfectly into
the mould in every part. He next takes the plane and
passes it backwards and forwards with considerable
pressure, until the face of the brick is flush with the
edges of the mould, and then, reversing the mould,
planes the underside in the same way. The brick being
moulded, the moulder slides it on the wet table to his
left hand side, where it is taken off by a second boy,
who carries it, mould and all, to an unoccupied part of
the ﬂoor, where he turns it out carefully on one of its
sides, and returns with the empty mould. Meanwhile
the moulder has made another brick in a second mould,
which is now ready to be taken off, and this process is
repeated until the distance to an unoccupied part of
the floor is too great to allow of the boys returning in
time, and the table is then shifted to another part of
the ﬂoor.

48. Drying.-—After the bricks have remained for a
few hours in the position in which they were ﬁrst placed
on the ﬂoors, they are turned on their edges by a boy,
who turns up two at once, one with each hand. They

E 3

82 RUDIMENTS or THE

remain in this position a few hours longer, and are then
laid ﬂat on the opposite side to that on which they were
ﬁrst placed. Careful moulders sprinkle sand over the
wet bricks as they lie on the ﬂoor, which absorbs the
superabundant moisture, and renders them less liable
to crack; but this is not always done.

The new bricks sometimes also undergo a slight
dressing with the clapper, to take off any roughness at
the edges, and to correct any alteration of form which
may have taken place on turning them out of the mould,
and in some cases they are scraped with a small iron
scraper, to remove any dirt that may adhere to them.

After lying ﬂat a few hours longer, they are carried
by the boys, three at a time, to the hovel, where the
moulder builds them into hacks 50 bricks long and 14
courses high, each hack containing 7 00 bricks. As the
bricks are hacked they are batted with the clapper, to
correct any warping which may have taken place whilst
lying on the ﬂoors. The bricks remain in the hovel
without being again shifted, until they are ready for .
burning.

, 4:9. The time allowed for drying varies with the
weather, the size of the kiln, and the demand for bricks.
Some brickmakers get the bricks out of the kiln within
a fortnight of their leaving the moulds, but this haste
is very prejudicial to the soundness of the bricks, and,
as a general rule, three weeks is the least time that
should be allowed for drying.

The time that the raw bricks lie on the ﬂats depends
solely on the weather. In good drying weather the
bricks are made one day and hacked the next 3 but at
other times several days may elapse before they are ﬁt
for hacking.

50. It is not very easy to separate the cost of hacking

ART OF MAKING BRICKS AND TILES. 83

from that of moulding, as both operations are per-
formed by the moulder. The price for moulding, in-
cluding tempering and backing, is from 5s. per 1,000,
and upwards; 5s. 8d. is a common price. Where the
clay is ground the moulder pays for feeding the mill,
but not for horsing it, this expense being borne by the
proprietor of the yard.

51. The above description refers to the ordinary
mode of proceeding, but for facing-bricks additional
processes are employed. Pressed bricks, as their .name
implies, are prepared by putting the raw bricks one at
a time, when nearly dry, into a metal mould, in which
they are forcibly compressed by the action of a powerful
lever which forces up the piston forming the bottom of
the mould. This gives a very beautiful face to the
brick, and leaves the arrises very sharp, but bricks so
prepared require longer time for drying and judicious
management in the kiln, otherwise they will be un-
sound, and when exposed to the weather soon become
perished.

52. Polished brie/cs, as they are called, are rubbed
upon a bench plated with iron, to make their surfaces
perfectly even, and are also dressed with a dresser, as
before described. This process is only gone through
with the very best bricks, and its cost is such that it is
not employed to any very great extent.

53. The contraction of the clay in drying is very
slight, and no perceptible diminution of size takes
place in burning if the bricks have been previously
thoroughly dried.

The brick moulds are made of different sizes at dif-
ferent yards, their proportions having been altered from
time to time, so as to increase the depths of the moulds
at the expense of the other dimensions.

84 RUDIMENTS or THE

- When the thickness of a piece of brickwork is meap
sured by the number of bricks, as in house building,
and not by feet and inches, as in building the piers of
bridges and other solid works, the number of bricks
required for the execution of a rod of brickwork is
considerably reduced by a very triﬂing addition to the
thickness of the bricks, and this is always an induce-
ment to purchasers to prefer the yards where the
deepest moulds are used.

The largest common bricks now made measure, when
burnt, 9%- in. long, 4% in. wide, and 3,1,; in. thick, or
thereabouts ; the size of the moulds being 9% in. long
by 4%,} in. wide, and 3 g in. deep. These bricks weigh
about 7 lbs. 15 oz. when burnt.

The best red facing-bricks made at Mr. Wood’s yard,
in the Carlton Road, measure, when burnt, 9%; in. long,
4% in. wide, and 2%. in. thick. The moulds for these
bricks are 10 in. long, 4% in. wide, and 3-}; in. deep.

54«. A good moulder, if solely occupied in moulding,
will turn out 2,000 bricks in a day, between 6 A.M. and
6 P.M. ; but as nearly one-third of the moulder’s time is
taken up with hacking, the average day’s work is not
more than about 1,300 per day, or between 7,000 and
8,000 weekly.

55. Burning—The setting of the kiln is an opera-
tion on which much depends, and requires to be done
by an experienced hand, as there is a great deal of art
in arranging the bricks in a proper manner, so as to
allow the heat to be diffused equally through the kiln,
and to afford a proper draught, so as to obtain the
greatest amount of steady heat with the smallest ex-
penditure of fuel.

The lower part of the kiln is ﬁlled with common
bricks, narrow openings being left, as shown by the

ART or MAKING BRICKS AND TILES. 85

dotted lines in ﬁg. 12, forming ﬂues connecting the
opposite ﬁre-holes, the tops of these ﬂues being formed
by oversetting the bricks on each side till they meet.
These dues are of the same height as the ﬁre-holes.

The best bricks* are placed in the middle of the kiln,
and above these again are placed common bricks up to
the top. The bricks are not placed close together, but
a space is left all round each brick to allow of the pas-
sage of the heat round it ; the bricks in the successive
courses being crossed either slantwise, or at right angles
to each other. When a brick rests partly on others,
and is partly exposed to the ﬁre, the exposed part will
commonly be found of a lighter red than those to which
the ﬁre has had no access, and this is one great cause
of the mottled colour of the Nottingham bricks. When,
therefore, it is wished to produce bricks of a uniform
red tint, great care is taken to keep the faces and ends
of the bricks in close contact, crossing them every few
courses only.

The kiln being topped, the doorways are built up with
refuse brick and plastered over with clay, to prevent
the admission of currents of cold air, and the ﬁres being
lighted, the heat is got up gradually, care being taken
not to urge the ﬁres, until all the steam is driven off
from the bricks, and the actual burning begins. When
the ﬁre has attained its full heat, the ﬁre-holes are
partially stopped with clay, and the top of the kiln is
covered over with earth, turfs, or boards, to check the
draught, and a steady uniform heat is kept up until
the completion of the burning, which generally occupies
three days and three nights from the ﬁrst lighting of

* If tiles be burnt at the same time, which is frequently the case, as
they cannot be burnt alone without great waste, they take the same
position in the kiln as dressed bricks.

86 RUDIMENTS or THE

the ﬁres 3 at the expiration of which time the ﬁre-holes
are completely stopped, and the ﬁres put out 3 after the
ﬁres have been extinguished, the kiln should be allowed
to cool very gradually, as the soundness of the bricks is
much deteriorated by the kiln being opened too soon;
this, however, is a point not sufﬁciently attended to.

56. The fuel employed is coal,>l< the quantity-f used
being about half a ton per 1,000 bricks, the exact
amount depending on the quality of the fuel and the
judicious setting of the kiln. The town of Nottingham
being situated on the very edge of the Nottinghamshire
coal-ﬁeld, the cost of ﬁring is very low, and excellent
coal can be laid down at the yards at from 83. 6d. per
ton upwards. The small coal or slack frequently used
in the early stage of burning does not cost more than
5.9. to 6.9. per ton.

57. The colour and soundness of the bricks vary
according to their position in the kiln and the intensity
of the heat to which they have been exposed. Those
nearest the ﬁre become partially vitriﬁed, and of a
blackish tint. Those which have been more favourably
placed burn of various tints according to the nature of
the clay, from red to straw colour and white, and when
struck together ring with a clear metallic sound. Those
which are underburnt are tender, of a pale red colour,
and give a dull sound when struck together.

58. The cost of setting and drawing the kiln is gene-
rally reckoned at 1.9. 6d. per 1,000, this including
stacking the bricks in the yard, or placing them in
the carts of the purchasers. If, however, they are

‘3 Soft coal is preferred.

1 In some great yards a deal of coal is wasted on the top of the kiln.
As the heat has always an upward tendency, this has very little effect 0!!
the bricks, and a great deal of fuel is wasted in smoke and ﬂame.

ART or MAKING BRICKS AND TILES. 87

not for immediate sale, an additional 6d. is charged for
loading the carts.

59. The labour in ﬁring is reckoned at ls. per
1,000.

60. At Nottingham, and at the yards in the neigh-
bourhood, many varieties of brick are manufactured;
as cant, or splayed bricks, for plinths ; weathered and
throated copings of several sizes ; round copings 3
bricks with quarter-round ends ;\ wedge-shaped bricks
for culverts 3 compass, or curved bricks for lining shafts
and wells, and also paving, rooﬁng, and draining tiles
of all descriptions. It is unnecessary to enter into any
details on the manufacture of these articles, as they
offer no particular points of interest. It may, however,
be worth while to mention that the use of copper
moulds is conﬁned to the manufacture of those articles
which are of a convenient size, and for which there is
a large demand; the moulds for cant bricks, compass
bricks, and other fancy articles for which there is only
a limited demand, being made of wood.

COST OF MANUFACTURE.

61. Land, and Brick-earth.—The proprietor of a
brickwork usually rents the necessary land at a price
per acre, and in addition pays for all clay removed at a
set price, whatever its quality.

As the brick-earth is exhausted, or the workings
reach an inconvenient depth, the ground is levelled and
again thrown into cultivation. This is of course done
at the earliest period possible ; and in some cases the
rental of the land is nearly made up by the proﬁt de'
rived from cultivating the site of the exhausted work-
ings, so that it is impossible to give an accurate- estimate

88 RUDIMENTS or THE

of the proportion which the rental of the land bears to
the total cost of manufacture, as it must vary widely in
each particular case. This remark does not hold good
with regard to the brick-earth, which is paid for at the
rate of 8d. per cubic yard, or 2.9. per 1,000 bricks, a
thousand bricks requiring about 3 cubic yards of clay.

It must be remembered that, as above stated, this
price is paid for all clay removed, whether suitable or
not for brickmaking. For common bricks the earth is
taken as it comes, good and bad being ground up to-
gether; the cost of grinding being less than the loss
which would result from the rejection of the inferior
earths, which are often so hard, and contain so much
skerry in pieces of all sizes from that of a walnut to that
of a man’s head, that they could not be worked up by
the ordinary process of tempering by treading and spade
labour only. For front bricks and the best qualities,
the clay is carefully picked, and the cost is propor-
tionately increased thereby.

No estimate can be given for the amount of land
required for making a given number of bricks, as it
depends on the situation of the yard and the depth to
which the workings can be carried.

62. Buildings and Machinery—From the circum~
stance that in existing yards the buildings have been
erected at different times without any very systematic
plan, it is not very easy to ascertain what are the best
relative sizes of working ﬂoors, hovels and kilns, or
what extent of building and plant are required for
working a yard to the greatest advantage. Unless the
manufacture be conducted on a very large scale, the
grinding-mill will, in most cases, be often unemployed;
and the wash-mill being used only in the manufacture
of arch bricks, it is only in the immediate neighbour-

ART or MAKING BRICKS AND TILES. 89

hood of a large town that a return for the cost of its
erection can be hoped for. It will always be found an
advantage to have an excess of shed-room rather than
the contrary.

G3. The following rough estimate will give an idea of
the buildings and machinery required for mounting
a new yard, to produce from 40, 000 to 50, 000 per
week. ——

1 clay-mill.
120 yards lineal of hovel, 6 yards wide.
1,200 yards superﬁcial of working ﬂoor.

This extent of hovel and ﬂoor will be sufﬁcient for the
operations of six moulders 3 and, taking the work of
each moulder to average throughout the season 1,300
per diem, the week’s work of the six moulders would
produce 46,800 per week, or in round numbers 140,000
every three weeks.

This rate of production would render necessary two
kilns, each to burn 35,000, and these kilns would be
kept in constant activity, each kiln being ﬁred twice
every three weeks.

64‘. For a yard in which it is proposed to make all
kinds of brick ware additional buildings will be required,
as :—

Cellars for ripening the ground clay 3

A tempering shed, for tempering under cover;

One or more drying- houses, provided with fuinaces
and ﬂues 3

A wash- mill for running the clay for making rubbers.

Besides the above erections, there will be required in
all yards stabling to a greater or less extent; a cottage
for the under-taker of the yard 3 and sheds and out-
buildings for keeping tools, carts, and implements.

90 RUDIMENTS or THE

65. Tools. -— The tools required by each moulder
are :—

A pair of brass moulds ;

A moulding table, and appurtenances complete;
A plane ;

A clapper.

In addition to these implements a variety of other
articles are required, as shovels, picks, barrows, planks,
sand baskets, sieves, &c., which are kept in store by
the proprietor of the yard, and supplied to the men as
required.

66. Labour. -—-—The proprietor of the yard ﬁnds all
tools and implements, sand, and coals, and horses the
mills. The general management of the yard is con-
ducted by an under-taker, who superintends the yard
and contracts with the proprietor for all the labour
required in the actual manufacture, at a price per
1,000 on the tale of bricks delivered from the kiln,
the under-taker bearing all less from frost, wet, or
other causes.

The under-taker sublets the moulding to a moulder,
who contracts with him at a price per 1,000 to mould
and hack the bricks ready for setting in the kiln 3 the
moulder employing two boys to assist him in moulding
and hacking, and also a temperer, who tempers the
clay for him, and assists in getting up the bricks from
the ﬂoor. The ﬁrst turning over of the clay is per-
formed by labourers, under the direction of the under-
taker, who, with the assistance of a few boys and
labourers, sets and draws the kilns himself, and attends
to the burning.

67. The actual selling price of bricks is regulated
more by the demand and the amount of competition

ART or MAKING BRICKS AND TILES. 91

than by the cost of their production. Good building
bricks, made in copper moulds, may be had in Notting-
ham at 253. per 1,000 5 but a fair selling price may
be considered as 283. per 1,000, which may be thus
subdivided :—

 

.£ 8. d.

Clay digging .pei 1,000 O 1 6
Turning 01' er and watc1ing clav and feeding mill ,, , O O 8
G11ndln0‘ . . ,, O 0 6
Tempe1ing for mouldc1 . ,, 0 0 4
Moulding, drying and hacking ,, O 4 0
Setting and drawing kiln . . . . ,. 0 1 6
Burning O O C C O O . ,, 0 1 6
Total cost of labour . . ,, O 10 0

Coal, half a ton, at 103. . . . . ,, 0 5 0
Clay. . . . . . ,, 0 2 O
Renyt, tools, machinery, and proﬁt . . ,, 0 11 0
Selling price at yard . . . ,, 1 8 0

This may be considered as the lowest price which
will afford any proﬁt to the proprietor of the yard,
when proper allowance is made for depreciation in
buildings and machinery, tools, repairs, and other
contingencies.

68. The relative value of the different qualities of
brick may be thus stated :—

£ 3. (1.

Common blicks (the clay not picked) . per 1, 000 1 8 0
Front b1icks (made 1n coppc1 moulds, the clay

picked) ,, .1 l3 0

Polished bricks (made in copper moulds, the
earth selected with care, and the b1icks
dressed on a benrh) . . . . . ,, 3 0 G

92 RUDIMENTS OF THE

69. REFERENCE To THE ILLUSTRATIONS ACCOMPANYING
THE FOREGOING ACCOUNT OF BRICKMAKING As PRAC-
TISED IN NOTTINGHAM.

Fig. 1. General view of a brickwork, showing the arrangement of the
works.

A. The face of the workings.

B B. Heaps of brick-earth, dug in the autumn, to be worked up the
following season, after being mellowed by the winter frosts.

C. The clay-mill.

D D. The working ﬂoors, generally made about 9 or 10 yards wide.

E. Thehovel. This hovel is ﬂued,—the door at the end of the hovel
next the road is the entrance to the furnace pit ; the chimney into
which the ﬁnes are conducted is shown at the opposite end. In
some drying houses the ﬂues are made to return nearly to the
furnaces beibre they are led into the chimney, so that the latter is
close to the former.

F. The kiln. This form of kiln is a weak one, and is liable to be
Split from top to bottom by the expansion of the walls, from the
intense heat to which they are exposed. The reader will observe
the steps and the wooden fence round the top of the walls, men-
tioned in article 41. ‘

G. Goods for sale.

This illustration is not an exact representation of any particular brick-
work, but has been made up from the details of several yards, to show the
principle on which they are laid out; which is, to save all unnecessary
carriage of either brick-earth or bricks,from the time of ﬁrst turning-
over the clay to the stacking of the ﬁnished bricks in the sale yard.

Figs. 2, 3, and 4. Clay-mill, with a single pair of rollers 18 in.
in diameter, and 32 in. long, as manufactured by Messrs. Clayton and
Shuttleworth, of Lincoln. The letters of reference are the same in each
(inure.

O a. Horse beam, 12 feet long, from centre of horse track to centre of
driving wheel.

I). Bevellcd driving wheel.

0. Pinion.

(1. Driving shaft, U; in. diameter.

e. Universal joint.

ff. Spur wheels.

y g’. Cast-iron rollers 18 in. diameter and 32 in. long. The roller
marked 9’ is longer than the other, having a ﬂange round each
end by which the roller 9 is kept in its proper position. The
roller marked 9’ is connected by the universal joint e with the
driving shaft d.

11. Wooden hopper.

i z'. Cast-iron standards to support the hopper.

k /t. Axles of rollers.

ART OF MAKING BRICKS AND TILES. 93'

I I. Bearings for the axles It It. These bearings are made to slide
on the bottom plate 172, in order that the gauge of the rollers may
be adjusted at pleasure.

m. Bottom plate, on which the bearings rest.

:2. Strengthening bar.

0 0. Adjusting screws, by which the rollers can be set to any gauge,
according to the degree of fineness to which the clay is required
to be ground.

1). End beam of framing.

q (1. Sides of framing.

r. Balance weight to horse beam.

The rollers in this mill are not faced in the lathe, but they are cast
upright in loam moulds, which insures great accuracy in casting, and
renders turning unnecessary, where only one set of rollers is employed.
The arrangement of the rollers, when two or more sets are employed, is
shown in chap. iv., ﬁgs. 1, 2, and 3, which shows the construction of the
clay-mills used in Staﬂ'ordshire.

The temporary ﬂoor on which the clay falls after passing between the
rollers is formed about 8 feet below them, and is incloscd on three
sides with brick walls which support the wooden framework of the
machinery. The clay is prevented from adhering to the surfaces of the
rollers by strong knives ﬁxed on their under sides.

Fig. 5 is a diagram showing an improved arrangement of the ordinary
clay-mill, in which the horse track is raised to the level of the top of the
hopper, the whole of the machinery under the hopper being completely
boxed up, so that no dirt or stones can lodge on the wheels. The driving
wheel is placed in a circular pit lined with brickwork to keep up the
horse track to the required height.

Fig. 6. Isometrical view of a moulding table.

A. Sloping plank, placed at one end of the table to enable the
moulder’s boy to deposit the clay on the table.

B. End of the table where the tempered clay is deposited.

0. Sand box. This is not always ﬁxed to the table. In many
cases it is a detached box, on three legs, placed close to the
moulding table.

1). The part of the table on which the clot is moulded.

E. The place where the clot is put into the mould.

F. The water-box, in which the moulder dips his hands each time
he moulds a brick.

G. A slip of wood on which the plane rests in order to raise it from
the table, that the moulder may take it up the more readily.

H. The part of the table at which the brick is taken off. This part
of the table is always very wet, and the slush runs off into

I. Gutter, to carry off the drippings from the table into a tub placed
beneath it, but which is not shown in the drawing. If the water
were allowed to run down on the working ﬂoor, the latter would
soon become wet and slippery and unﬁt for receiving the bricks.

Fi . 7. Copper brick mould.

This kind of mould is cast in four pieces and riveted together, the
sides projecting half an inch beyond the ends. Each casting has
a ﬂange at top and bottom, forming a rim half an inch wide all
round the tap and bottom of the mould. These rims become

94:

Fig

Fig

RUDIMENTS OF THE

gradually worn down by the friction of the plane and the action of
the moulding sand, and require replating from time to time. The
expense of replating with brass has induced a trial of iron rims,
but they have not been found to answer. The outside of the mould
is cased with wood, secured to the brass by the rivets. To give a
hold to the latter, each pair is passed through a piece of sheet
copper, as shown in the cut.

The moulds for making quarries are somewhat different, two of the

sides only being cased with wood, whilst the others are stiffened
by strengthening ribs cast on the sides of the mould.

. 8. The plane.
. 9. The clapper.

Fig. 10. Bench on which the best bricks are polished and dressed with
a dresser, as described in art. 34.

Fig. 11. The dresser.

Figs. 12, 13, 14, 15, 16, and 17. Plans, sections and elevations of a

kiln.
Fig. 12. Plan at level of ﬂoor, showing the ﬁring sheds and ﬁre-holes.

The latter, in this example, are arched over, and are built of con-
siderable width, which is afterwards reduced by temporary piers of
brickwork. In many kilns, however, the ﬁre-holes are made at
once of the requisite width, and ﬁnished at top by oversetting the
bricks on each side till they meet, instead of being arched over.
The ﬁre-brick lining to the ﬁre-holes is indicated in the plan by a.
tint darker than that of the rest of the walls. The temporary piers
of brickwork are shown in outline only. These are pulled down
whenever the ﬁre-brick lining requires to be renewed. The ﬂoor
of the kiln is not paved.

Fig. 13. Plan, showing the roofs of the ﬁring sheds (B B), and the

steps (A) leading to the tOp of the kiln.

Fig. 14. Cross section of kiln, taken through the ﬁring sheds, and

showing the construction of the ﬁre-holes.

Fig. 15. Longitudinal section, taken through the doorways at the

ends of the kiln, and showing the appearance of the ﬁre-holes in
the inside.

Fig. 16. End elevation of kiln, showing the doorway and the ends of

the ﬁring sheds, as well as the steps leading to the top of the kiln.

Fig. 17. Side elevation, with the ﬁring shed removed, in order to

show the ﬁre-holes.

Fig. 18. Perspective view of a kiln. This kiln is built very differently

from that shown in the previous ﬁgures, the walls being very massive
at the bottom, and diminishing in thickness as they ascend. The

angles are Strengthened by buttresses. The doorways do not reach ,

to the top of the walls, and are arched over, so that the latter form
a continuous terrace all round the top of the kiln, on which a thin
parapet is built up in a temporary manner, to increase its capacity.

ART OF MAKING BRICKS AND TILES. 95

CHAPTER IV.

BRICKMAKING AS PRACTISED IN THE STAFFORD-
SHIRE POTTERIES. BY R. PROSSER, (3.13.

1. Ericka—There are made in this neighbourhood
the following sorts of bricks for building, viz. , red, blue,
and drab, and also a blue brick used as a paviour for
footways, which brick is called a dust brick, from the
circumstance of coal dust being used when it is moulded.
When ﬁred it has a smooth and somewhat glossy sur-
face, and being very durable is extensively used as a
pav1our.

2. The drab brick is used to a limited extent for
building, but more generally as a ﬁre-brick by potters
and iron-masters ; it is, however, inferior to the Stour-
bridge brick, the latter being used where intense heat is
generated.

3. Tiles.——There is a variety of other articles made
in the brick-yards of this locality, as, rooﬁng tiles in
several varieties, tubular drain tiles from 3 in. to 16 in.
meter, and generally 18 in. long 3 also ﬂoor tiles or
quarries both red and blue, the latter resembling the
blue brick.

4. Clay.—The blue colour is obtained from the same
clay that ﬁres red by additional heat being generated
when blue is required, at a cost of half a ton more coal,
and two hours more time allowed per oven. The clays
or marls are selected for the purposes to which they are
best adapted, and an extensive supply of the best quality
for red is procured at Cobshurst, about two miles south
of Longton (which marl is used to make the red orna-

96 RUDIMENTS or THE

mental and encaustic tiles, now so much admired, and
which are extensively made by Messrs. Minton and Co.,
of Stoke-upon-Trent). Marls and clays suitable for
brickmaking are plentiful, and of several varieties, in this
neighbourhood, but the most extensive bed of red marl
runs in an almost unbroken line through this country
from south to north, and generally west of the great
coal-ﬁeld, and is worked with the same results at
Stourbridge, Tipton, Hanford, Basford, Tunstall, and
other places. A reference to a map of the country
will show the peculiarity of this long bed of stratiﬁed
marls.

5. In the pottery district there are about ten distinct
sorts or strata. The following names are given to the
seven sorts most used ; and their position with relation
to the earth’s surface is shown by the order of their
names here given.

Top red marl, dun coloured, top yellow (rotten red,
not used), mingled, bottom yellow, brown, and bottom
grey.

Seven of these marls vary but slightly in their
chemical composition, and, when used, three sorts at
least are generally mixed together. (For an Analysis
of the above-named marls, see Table 1, art. 37.)

In this locality there is a very favourable combinatiOn
of circumstances for the manufacture of ornamental
bricks for architectural decorations; and were archi-
tects to give the subject their attention much might
be done.

6. The following description of the process and cost
of brick and tile-making will apply, ﬁrst, to the make
of bricks, &c., upon the property of the manufacturer;
and, secondly, to the make of tiles, &c., at a yard which
is rented.

ART OF MAKING BRICKS AND TILES. 97‘

FIRST EXA MPLE .-—'BRICKMAKING .

7. Buildings and PIant.-—This yard, with the ground
opened for work, has an area of about 6 acres, and has
the following buildings and machinery upon it, viz. :—

A 5-hour: power steam engine : A pug-mill ;
A set of horizontal rollers ; \Six drying-houses ;
(Three pairs to the set, placed over And nine ovens.

each other).

The drying-houses measure 40 yards in length, by 8%
yards in width, and have two ﬂues under the floor
through their entire length.

At times they ﬁre these nine ovens in one week;
and if used exclusively for bricks, each oven could
be ﬁred ﬁve times in a fortnight. Besides bricks, the
Following goods are made at this yard z—pipe tiles from
3 in. to 16 in. diameter, roof and ridge tiles, quarries,
lust bricks, &c.

8. Rate of Production-Provided the make were
Bonﬁned to bricks, with these conveniences they would
nake 100,000 weekly during the usual brick season,
which at the present selling price, £1 88. per 1,000,.
gives a weekly produce value £140.

9. Temperz'ng.—The marls used at this yard answer
“.0 the description previously given. Their average con-
;raction when mixed is 1 in 10 3 that is, a 10-in. mould .
gives a 9-in. brick when ﬁred, although some of the
rarieties used separately contract 1 in 6. The marls
ire dug and wheeled two runs for 4d. to 7d. per cube
rard, the price depending upon the difﬁculty of digging.
l‘he marl is then placed in a hopper over the topmost

F

98 RUDIMENTS OF THE

rollers, and passing successively through the three pairs,
is deposited 011 a ﬂoor about 8 ft. below the hopper.
The marl is then wheeled away, and some thi ee or more
sorts mixed togethe1 with a p10pe1 quantity of water,
by spade labou1 (f01 the quantity of wate1 in the marl
when dug, see Analysis, Table 1, art. 37). The mixed
marls, if wanted for tiles or dust bricks, are now passed
through the pug-mill 5 but if required for ordinary
bricks, the ground marls are mixed with marls that
have been weathered but not ground. Lastly, the marl
is tempered by spade labour until the proper degree of
plasticity is obtained.

10. Moulding. —-—The b1icks a1e moulded by what is
called the slop- moulding process at the 1ate of 3,000
per day. * The p1ice paid f01 tempering and moulding
is 4.11. 6d. pe1 1,000. The p1ocess is as follows: the
temperer wheels the prepared marl in a barrow up a
plank, and empties it upon the moulding table. The
moulder having sprinkled sand upon the moulding
board, and upon that part of the table where the clot
is moulded, takes as much clay as will ﬁll the mould,
and by a quick roll and a tapg ives the clot an approxi-
mate form to the mould, he then lifts up this lump of
clay about 12 in. high, and with force throws it into
the mould, pressing it down with both hands to ﬁll all
the cavities, and strikes off the surplus with a wooden
striker, which he throws into a small water-box in front,
of him after each time of usingxl‘ An attendant boy,
who has previously dipped a mould in a water-trough
by the side of the table, places it on the table ready for
the moulder, and carrying away the moulded brick:

"‘ In the neighbourhood of I\ott1ngl1am whe1 c the bricks are not stricken,
but planed. the late of production is onlyr 2, 000 per day. ~—ED

1‘Q cc chap. iii. art. 47.

ART or MAKING BRICKS AND TILES. 99

in the mould, carefully empties it on its ﬂat side on
the ﬂ00r ; these Operations are repeated until the ﬂoor
is ﬁlled, when the moulding-table is removed to a
. second ﬂoor.

11. Drying—The ﬂoors are of different sizes ; acon-
venient size is 25 yards in length by 6 yards in breadth,
. upon which they will lay 3,000 bricks. Here they are
. allowed to dry until sufﬁciently hard to handle and place
in hacks, the length of time depending upon the weather.
‘ In quick drying weather they will remain half a day as
deposited from the mould, and half a day turned upon
edge, and afterward they are. placed up in hacks, where
they remain until placed in the oven.

12. An ordinary blue brick weighs, wet from the
. mould, 12 lbs. 4 oz. 3 when ﬁred it weighs 8 lbs. 1 oz.,
having lost by evaporation in drying and burning 4.11s.
3 oz., or 34: per cent. of its original weight.

The specific gravity of an ordinary blue brick
. in the wet state from the mould is . . . 2,171
In the dry state, ready for the kiln . . 2,075
And when burned, the speciﬁc gravity is . 1,861
The Table on the next page shows the amount of
evaporation during the process of drying.

The total loss of weight in drying and burning is as
follows :—

196 ounces, the weight of a brick wet from the mould.

46 ,, ,,, lost by drying, or 23% per cent.
150 _ ,, ,, dry ready for the kiln.

21 ,, ,, lost in burning, or 14« per cent.
129 ,, ,, of an ordinary blue brick.

13. Burning.——The oven is of a circular form, with a
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spherical top, and will contain 8,000 bricks, which are
so placed as to allow a space between the sides of each
for the action of heat, and an equal diﬁ'usion thereof.
When the oven is full, the clammins or doorway is made
up, and the ﬁres kindled and kept burning 36 hours for
red, and 38 hours for blue bricks, consuming 3% tons of
coals for the former, and 4 tons for the latter. The

ART OF MAKING BRICKS AND TILES. 101

expense of setting, ﬁring, and drawing an oven of
'8,000 bricks is as follows: labour 12s., and coals
..£1 138. 4d.

14. Cost of Manufactm'e.——The details of the cost of

. manufacture are as follows :— \

£ 8. d.

Clay getting . . . . per 1,000 0 2 0
Tempering and moulding . . ,, 0 5 0
Setting oven, ﬁring and drawing . O 2 0
Goals, 4 tons at 83. 4d., divided amongst .8, 000 ,, 0 4 2
Rent, machinery, clay, contingencies, and proﬁt ,, O 14 10
Present selling price for ordinary blue bricks ,, 1 8 0

15. RentaZ.—Brick-yards with mines of marls are set
with the following appendages, viz. : 1 oven, moulding
or drying-house, and pug-mill, with a breadth of brick
ﬂoor and marl bank suiﬁcient to work one oven for £30
per annum ; if two ovens are worked in the take, they
are set at £25 each.

102

RUDIMENTS OF THE

DESCRIPTION OF ILLUSTRATIONS.

16. Figs. 1, 2, 3, Machine, with three pairs of Rollers,

Fig.
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for grinding Marl.
1. Side clexation.

2. F1ont elevation, with the gaming 1emoved.
3. Elevation of gea1ing,No. 1 being the d1iving wheel.

  

 

  

 

 

 

ART OF MAKING BRICKS AND TILES. 103

17’. Fig. 4. Isomeirical View of a Moulding Table.

 

A. Sand basket. 13. Detached water-box. C. Moulding hoard
D. VVater-box. L. Clay knife.

In the process of moulding the moulder takes in his hand, from the
basket, 3. portion of sand, and (lusts upon that part of the table where he
rolls the clay into the form necessary to mould; also upon the moulding:
board. The water-box or trough, B, is used by the boy to wash the mould
in, and is lower than the table, so as to be convenient for that purpose.
The water-box, D, is level with the table, and is used to throw the strike
in after each time of using.

18. Fig. 5. Isomeire'cal View of a Brick Mould.

    

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N. B. The mould is made of oak, the e1 1 id. iron
SE LIBRA
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UNIVERSITY

104 RUDIMENTS OF THE

19. Figs. 6, 7, 8, and 9. The Oven or Cupola
Fig. 6. Plan taken at top of ﬁre-holes at level A B, Fig. 9.

 

 

ART OF MAKING BRICKS AND TILES. 105.

Fay. 8. Elevation.

 

F219. 9. Section, on line C D, Fig. 6.

 

 

SECOND EXAMPLE.—TILE MAKING.

20. At Basford there is an extensive hill of good marls
from which eight brick-yards are supplied (working four-
teen ovens), some of which have been in work for forty
years. The makers are subject to the rental stated in
art. 15. The leading article made at these yards is rooﬁng

F 3

106 RUDIMENTS or THE

tiles; besides which are also made some quarries, dust"
bricks, drain tiles, and just so many common bricks as are
necessary for the manufacture of tiles, it being necessary,
in order to set the oven properly, to burn 2,000 bricks
with every oven of roof tiles, as will be hereafter ex-
plained. The process of tile making here is as follows :—
21. ”feathering and Tempering.—The marl is dug
and spread upon slopes of this hill (which has a south-
east aspect) to weather; the length of time depends
upon the quality of the air : a hot dry summer’s day will
do good service, and three or four such days would
enable the makers to collect a thin surface in a work-
able condition. Frosty weather, provided it be dry, is
preferred ; wet, and alternations of wet and dry, retard
the process of what is termed weathering. During 9
hot dry season marl can be dug, weathered, and made
in one month, and this is frequently done. At the yards
here referred to, the workers collect their marls, so
weathered, at the foot of these slopes, and mix. them
with a quantity of water. That to be used for tiles is
placed in the pug—mill, and about 1 cube yard per hour
is ground by one horse ; and that used for common
bricks is not ground, but simply mixed and tempered.
The pug-mill consists of a wooden tub slightly
tapered, the largest end being uppermost ; it is circular
and about 6 ft. high and 3 ft. diameter at the top or
largest end, in which a cast-iron spindle revolves,
carrying a series of ﬂat steel arms, arranged so as to
form by rotation a spiral or worm-like motion upon the
clay, which is thereby pressed from a larger to a less
diameter of the tub in which the clay is conﬁned, and
ultimately comes oozing out of an aperture at the
bottom: this operation kneads the clay, and more com-
pletely mixes it, giving it great cohesive power. This

ART or MAKING BRICKS AND TILES. 107

clay or prepared marl is now ready to make roof tiles,
dust bricks, quarries, &c., and is wheeled away to the
stock kept under cover for that purpose. The tiles, and
all articles in the making of which coal~dust is used,
are made in a building called by brickmakers the hovel
or drying house: but they prefer placing their tiles
when ﬁrst moulded in the open air, weather permitting.
The moulding of rooﬁng tiles varies from that of bricks
before described, principally in the clay being stiffer,
and coal dust being thrown in the mould each time it
is ﬁlled.

2.2. Moulding—The mould is 12 in. by 7;} in. and
{- in. thick, made of oak plated with iron. The moulder
at his bench takes up a lump of clay, and works it by
hand into an oblong square, somewhat less than the
mould, say ll in. by '7 in. or thereabout 3 the mould is
placed upon the bench, and ﬁne coal-dust thrown into
it ; the man then takes up the lump of clay in the right
position for the mould, and throws it into it with con-
siderable force ; then, with a brass wire strained upon a
wooden bow, cuts off the surplus clay level with the
mould, removes the lump, and ﬁnishes moulding the
clay left in the mould by adding a little clay if it he
wanted, and smooths it over with a wooden tool. By
his side upon the bench he has two thin boards about
the size of the moulded tile, their surfaces are dusted
over with coal-dust 3 upon one of these he places the
moulded tile, without the mould, the half circular pro-
jections extending beyond the board; and so he repeats
the process of moulding at the rate of from 1,300 to
1,500 per day, adding more clay to his lump about every
six tiles moulded, and in quantity about as much as the
six tiles moulded.

23. Drying—«The attendant boy carries away two

108 RUDIMENTS or THE

tiles at each time to the ﬂoor 3 he takes up one on the
board, and by the thick part of the hand presses up the
two projections at right angles with the face of the tile,
and then places board and tile on his head, and takes
up a second and operates upon this in like manner, as
he walks to the ﬂoor, where he lays the two tiles,
carrying the boards back to the moulding bench ; and
so he repeats his operations.

The tiles remain on this floor, out of doors in ﬁne
weather, about four hours 3 they are then collected and
placed close together, the nib end changed alternately
to allow of their resting close and square 3 in this state
they are walled up in a dry but not hot situation, and
so remain for a day or two: this is said to toughen
them.

24. The Set.—The next process is to give them a
curved form, sometimes termed the set, which is done
on a three-legged stool, called a horse, the top of which
is a little larger than the tile, and is curved one way to
about a 10 feet radius. With the horse is used a
wooden block, curved to correspond with the surface of
the horse. These implements are used as follows : six
tiles are taken as last placed and put on this horse 3 the
man lifts up the wooden block and gives them three
sharp blows with it 3 they are then carried away and
placed in an ingeniously built wall to complete the
drying process (the wall built with the tiles to be dried),
after which they are carried to the oven, twelve at each
time, in a peculiar manner, with the edges of the tiles
against the breast of the carrier.

25. Quarries and dust bricks are moulded in like
manner from stiff clay, coal-dust being used to facilitate
the articles leaving the mould.

26. Drain Tiles.——Pipe drain tiles are made as fol-

AR'l OF MAKING BRICKS AND TILES. 109

lows: the clay is ﬁrst moulded to the length, width,
and thickness required, and then wrapped round a
drum, the edges closed together by hand, the drum or
rmandril turned round, and the pipe tile shaped by the
operator’s hand, assisted in some cases by a wooden
tool : this is the mode of making pipe tiles from 3 in.
to 16 in. in diameter, whether cylindrical, tapered, or
egg-shaped.

The usual length is 18 in., and the diameter from
3 in. to 9 in. They are sold at 1d. per in. bore; that is,
.a pipe 3 in. in diameter and 18 in. long, would cost at
the yard 3d. ; and a pipe 9 in. in diameter and 18 in.
long, 9d. This price applies to cylindrical pipes Without
sockets.

27. Tile Machines—One of Ainslie’s machines has
been introduced into this neighbourhood, upon the
estate of the Duke of Sutherland, for making small
tubular drain tiles, which makes two pipes 1% in. in
‘ diameter at the same time. The prepared clay is forced
through two dads to form the tubes, which are cut into
lengths by wires afﬁxed to the machine, and when
partially dry are rolled straight by hand upon a ﬂat
surface, and then set up in racks to ﬁnish the drying
process.

28. Firing—Firing the articles enumerated in the
previous description requires much more care than
ﬁring bricks, and as roof tiles are the thinnest and
require most care, the largest sized pipe tiles excepted,
we shall describe ﬁring an oven of such tiles.

On the bottom of the oven are ﬁrst placed 2,000
bricks, as shown in ﬁg. 13, and upon these are placed
7,000 tiles, forming a square, the spaces between the
tiles and the curved side of the oven being ﬁlled up
with bricks, as shown in ﬁg. 14. The tiles. are piaccd

110 RUDIMENTS OF THE

edgewise, in parcels of twelve, changing their direction
each parcel of twelve. The nibs on the tiles space them
off from each other, and support them in the vertical
position; from this description, and a reference to the
illustrations, it will appear, that the goods placed in the
oven are in each case so placed as to allow the diffusion
of heat between them ; and as the uniformity of heat is
the desideratum in ﬁring blue bricks and tiles, the
circular oven is found to answer better than any other
at present in use.

It is necessary to have a wall round the outside of
the oven, about 6 ft. high, and at a distance therefrom
to allow the ﬁreman space to attend his ﬁres conve-
niently 3 this wall is dry built generally with imperfect
bricks, and its use is to avoid one ﬁre being urged more
than another by the set of the wind, which duty it
performs tolerably well.

The oven being set, the clammins (doorway) is made
up with bricks daubed over with street sweepings as a
loam; then the ﬁres are kindled, and are kept slowly
burning for the ﬁrst 5 hours, after which they are pro-
gressively increased for the next 33, making 38 hours
for hard ﬁred blue tiles or bricks; four tons of coal
being consumed in the ﬁring. The heat is determined
by the sight of the ﬁreman directed to the mouths and
top outlet of the oven. When the heat is obtained, and
before the ﬁres burn hollow, the mouths are stopped up
with ashes to prevent the currents of cold air passing
through the oven, which is then suffered to cool gradu-
ally. An oven is usually ﬁred once a week, but may be
ﬁred three times in a fortnight. After ﬁring, twenty-
four hours should be allowed for cooling before an oven
is opened to take out the tiles.

29, The following table shows the selling price per

ART OF MAKING BRICKS AND TILES.

 

 

111

 

1,000, and cost per superﬁcial yard, of quarries, dust
bricks, and roof tiles :—
P . Superﬁcialmea- 1311003ng
Size. 51800)” surement per super icxa Thickness. Description.
, - 1,000. . ”"1
in pence.
6 in. sq. 35s. 27'89 yards. 15'00 1 . ‘ ‘
7 ” 463. 3780 ” 14,59 J 1 inch Quauics.
9 80s. 62'50 ,, 15-3 1% ,, ,,
9X4:1 408. 31'25 ,, 143 2 ,, Dustbricks,
10 8X97 ,, 253. 5833 ,, 5'14 :1, ,, :Roof tiles.

 

 

 

 

 

 

 

DESCRIPTION OF ILLUSTRATIONS.

30. Fig.10. Isomelrical View of a Bench for moulding
Tiles.

 

A. Coal-dust box, 14 in. by 8 in.
B. Moulding board, 14 in. by 10 in.
C. The how.

3]. Fig. 11. Elevation, showing the Illamier in which
the Tiles are placed during z‘he last Drying.

WK
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(I d, lathe, two to each course.

112 RUDIMENTS OF THE

32. Fig. 12. Tile Block and Horse.

 

 

a. The block. b. The horse. c Tiles.

33. Fig. 13. Plan of Oven, as seen when eight courses
of Bricks are placed edgewise.

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The eight rows of twelve bricks in each, as seen in plan, cover a spac
left in continuation of ﬁnes from the eight ﬁre-holes. The bricks in th
ﬁrst seven courses are so placed as to leave a ﬂue of an average width 0
4 inches. The dotted lines show the position of the ﬁre-holes. .

 
 
   

ART or MAKING BRICKS AND TILES. 113

34. Fig. 141- Plan of Oven, as seen when the ﬁrst course
of Tiles are placed upon the Bricks, as seen in

Fig. 13. \

 

 

The tiles are placed in bungs of twelve, and laid alternately cross and
lengthwise, the nib spaces them off, and supports them in a vertical
position. Each side of the square is made up with bricks, as shown on
the plan. .

35. The manufacture of bricks, &c., for building and
paving purposes, in a systematic manner, in suitable
premises With improved conveniences, so that the OpCI'a-
tives may be employed the whole of the year instead of
a portion of it as now, is a subject deserving the atten-
tion of the capitalist and inventor. Improvements in
the quality and conveniences of this manufacture are
intimately connected with the moral, intellectual, and
physical condition of society, as may be seen by a visit
to any ordinary brickyard, and a reference to the
evidence before the Sanitary Commission. Where ex-
tensive supplies of marls or clay are found, suitable
works might be erected for such manufacture, could a

114 RUDIMENTS OF THE

cheap and ready mode of transportation be commanded,
so as to carry bricks, &c., a distance of 60 to 100 miles
without materially increasing their price.

The railway charges for the carriage of bricks are so
high as to preclude any resort to this mode of transit,
except for the better kinds, such as ornamental and
facing bricks, which must of necessity be brought from
a distance, where they cannot be produced locally; but
stock bricks and the other commoner kinds are seldom
carried far from their place of manufacture unless, as
often happens, this is situate near a canal or other
means of water carriage.

Where these facilities exist the cost of carriage can
be so considerably reduced, as compared with railway
rates, that bricks can be, and often are, sent con-
siderable distances. The bulk of the building bricks
used in the Metropolis are brought by barges in this
way either by river from Sittingbourne, 'or by canal
from other districts on the north and west of London.

The great part now played by bricks and tiles in
modern domestic architecture has led to great interest
being taken in their manufacture, with the result that
it has now reached a pitch of perfection never before
attained.

115

 

 

 

 

 

 

 

 

 

 

 

 

 

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ART OF MAKING BRICKS AND TILES.

 

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RUDIMENTS OF THE

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ART OF MAKING BRICKS AND TILES. 117

No. 5, Table 1, contains 4284: per cent. silicic acid 5
this requires, theoretically, 4760 of alumina, or its
chemical equivalent in other bases, to form a fusible
compound 3 it therefore contains only 3'31 per cent.
excess of base. This is insufﬁcient to prevent its fusion
-——a much larger excess would. No. 1 contains 2259
of base, which requires 251 of Silicic acid, therefore
69'87—25'102434'77 the excess of silicic acid, or
uncombz’ned silica in the clay, rendering it infusible.

ANALYSIS of COAL, called NORTON COAL, used in the
potteries for burning pottery and bricks :—

Carbon . . . . . . 81'08
Hydrogen . . . . . 5'04
Oxygen . . . . . . 10'55
Sulphur . . . . . 0°36
Nitrogen . . . . . . Trace.
Ash . . . . . . 297
10000

AINALYSIS of a porous substance which ﬂoats in water.
It is a piece of a vitriﬁed fort from Connel Ferry, near
Dunstaffnage Castle, Scotland :—

Alumina and peroxide of iron 28 45‘}

Silica . . . . 67 85 This specimen has the appear-
Lime . . . . . 0 32 ance of pumice-stone. It IS
Manganese . . . . Trace. only very slightly fusible even
Water . . . . 1'88 in the very highest: temperature

 

of the blow-pipe.
98-50 ,

 

BRICKMAKING ON THE SOUTH STAFFORDSHIRE RAILWAY.

38. The following additional particulars respecting
brickmaking in Staﬂ‘ordshire were sent to the author
of this volume by Mr. J. L. Brown, of Farewell, near
Lichﬁeld, and are given in his own words :—

118 ' RUDIMENTS or ' THE

“ The brickyard I visited is on the highway from
Lichﬁeld to Walsall, at a place called Walsall Wood;
it is worked by Mr. George Brown, of the Sand Hills,
near that place. Mr. B. has another brickyard in the
neighbourhood, more extensive than the one I visited,
and from these brickyards have been supplied all the
bricks used for building the bridges, viaducts, cattle-
arches, culverts, &c., &c., on the South Staffordshire
Junction Railway.

“ The brickyard I visited has six kilns or cupolas, and
three large moulding and drying-sheds for use in the
winter season, each 40 yards long by 8 yards wide,
having ﬁre-places at one end, and traversed by ﬂues,
longitudinally, to a chimney at the other end.

“ The material used is not a clay, but a friable kind
of marl. The ﬁrst stratum under the surface soil is
about 4 ft. thick, very compact in body, and requires
the pick to get it 3 it is of a purplish hue. This is suc-
ceeded by a stratum, 3 ft. thick, of bright yellow-looking
marl, equally intermixed with marl, of a bright scarlet
colour, and afterwards, down to the depth of 20 ft., the
purple-coloured marl comes in again.

“ The earth in its raw state is drawn up an inclined
plane on a common railway truck, by a steam—engine
of 20-horse power, and at the top of the incline it tips
itself into a hopper placed over the cast-iron rollers,
between which the marl passes and comes down an
inclined board, after being ground quite small. It is
afterwards wheeled into heaps and tempered, and is
then Wheeled up an inclined plane of earth to the engine-
house, where it is passed through vertical cylinders of
cast iron, in the centres of which are revolving pistons
. armed with ﬂanges, like the screw propeller of a steam
vessel, which grind the tempered clay and force it

ART or MAKING BRICKS AND TILES. 119

through holes in the bottoms of the cylinders to
chambers beneath them, whence it is wheeled to the
; moulders. -

“ They make red and blue bricks of the same marl,
prepared in each case by rolling and grinding. To
make the blue bricks, they keep \the ﬁres very much
sharper and hotter, which changes their colour, and
‘ seems to run or fuse the material more, giving them at
the same time a shining appearance. They make very
few red bricks.

“The price of the best bricks at the kiln is 30.9. per
1,000; common bricks, 25s. per 1,000. Plain-tiles
for rooﬁng, 283. to 323. per 1,000. They also make
chimney-pots, pipes for the conveyance of water, splayed
. bricks, coping bricks, and bricks to any model.”

 

CHAPTER V.

BRICKMAKING IN THE VICINITY OF LONDON.

1. FOR facility of reference, we propose to divide the
subject under three heads, as follows :—

1st. Materials and Plant.
2nd. Process of Manufacture.
3rd. Cost of Manufacture.

1. MATERIALS AND PLANT.

2. Brick-earth.—The brickmakers in the vicinity of
London at present derive their principal supplies of
brick-earth from the alluvial deposits lying above the
London clay, the blue clay not being used for brick-
:making at the present day. The general character of

120 RUDIMENTS or THE

the brick-earth may be described as being a gravelly
loam, passing by ﬁne gradations into either a strong
clay or into marl, or, as it is technically called, malm, an
earth containing a considerable quantity of chalk in ﬁne
particles. We may, therefore, for the purpose of descrip-
tion, class the several qualities of brick-earth under three
heads, as follows :* strong clay, loam, and malm.

3. 1st. Strong Clay—This is generally sufﬁciently
free from stones to be used without washing, and the
bricks made from it are hard and sound, but are liable
to crack and contract very considerably in drying, and
become warped and misshapen in burning. These de-
fects are in a great measure removed by mixing the
earth with chalk, reduced to the consistency of cream,
as will be presently described, which greatly diminishes
the contraction of the clay, and improves the colour of
the brick.

4. 2nd. Loam—The loams are often so full of gravel
that it is impossible to free them from stones, except by
passing the earth through the wash-mill. The quantity
of sand present in these earths renders them less liable
to shrink and warp than the strong clays ; but, on the
other hand, the texture of the earth is so loose and in-
coherent, that a mixture of chalk is necessary to bind
the mass together, and to take up the excess of fusing
silica in the process of burning.

5. 3rd. Malm.——This is an earth suitable for making
bricks, without any addition, but there is very little now
to be had, and for making the best qualities of bricks
(or, as they are called, malms) an artiﬁcial malm is made,

* It may be obserx ed tb at this classiﬁcation IS such as would be best
understood by the gene1ality of readers but would not be complehendcd '
by most b1ickmakc1s, who class these tl11ce qualities of b1ick-ea1tbs as .
strong clay, mild clay, and malm. \Vhen the clays are strong, they are
said, in brickmakers’ language, to be foul. »

ART or MAKING BRICKS AND TILES. 121

‘ by mixing together chalk and clay, previously reduced
; to pulp in wash-mills. This pulp is run off into shallow
. pits, where it remains until, by evaporation and settle-
”want, it has become of sufﬁcient consistency for subse-
quent operations. This process is adopted for the best
. qualities of bricks only, as the expense of it is very con-
siderable; and, for the commoner sorts, all that is done
:is, to mix with the loam or clay a sufﬁcient quantity of
:malm to make it suitable for brickmaking: the quan-
tity of malm required for this purpose varies, of course,
.according to the quality of the earth.

6. It will be readily understood, from the above
remarks, that the mode of preparing the clay differs
:greatly in different yards. The brick-earth (according
to its quality) being used——

lst. Without either washing or malming.

2nd. It may be malmed, i.8., covered with artiﬁcial
l malm.

3rd, and lastly. The bricks may be made entirely of
smalm.

The second process is the most common, and we pro-
pose, therefore, in the following pages, to describe the
=successive operations of brickmaking as practised at
Ithose works where the loamy character of the earth
wrenders the malming indispensable. This will enable
lthe reader to understand the ﬁrst and third methods of
: treating the brick-earth without any further description.

7. The object of adding chalk to the clay is twofold.
:In the ﬁrst place it acts mechanically, in diminishing
lthe contraction of the raw brick before burning; and
.in the second place it acts chemically, as a ﬂux during
:the burning, combining with the silica of the clay, so
'that a well-burnt London brick may be described as
a silicate of lime and alumina, and, therefore, differs

G

122 RUDIMENTS OF THE

greatly from an ordinary red kiln-burnt brick made of
pure clay, without lime or alkaline matter, the silica
and alumina of the brick-earth being, in the latter case,
merely in mechanical and not chemical combination.
8. SoiZ.—The process of malming is not the only
peculiarity of London brickmaking. Instead of the
bricks being burnt in close kilns, as is the practice in
most country yards, “ clamping” is universally resorted
to 5 and to render this effective, it is considered neces-
sary that the fuel should be mixed up with the brick-
earth, so that each brick forms, as it were, a ﬁre ball,
and becomes thoroughly burnt throughout, instead of
being merely baked, as is the case in kiln burning. The
fuel used in clamp burning is domestic ashes, or, as they
are technically called, breeze. The ashes are collected
in large heaps, and sifted 3 the siftings, which are called

soil, being mixed with the brick-earth, and thoroughly '
incorporated with it in the processes of soiling and .
“ tempering,” whilst the Cinders, or “ breeze,” are used _
as fuel. A small quantity of coal and wood is also ,

made use of in lighting the clamp.

The soil, or sifted ashes, materially assists in pre- -
venting the contraction of the raw bricks whilst drying, .
and the sulphur contained therein appears to assist in .

colouiing the bricks when bu1nt.

9. Sand. -——The moulding sand is bought, at a con- .

siderable expense, fiom the bed of the river Thames,

near Woolwich. It is spread out to dry in the sun in .
thin layers, which are repeatedly raked over, so as to ‘

expose every particle in succession to the sun’s rays,

that the whole may be perfectly dry when brought to 1

the moulding stool. The moulding sand serves many
useful purposes. It assists in preventing the contrac-
tion of the clay, and gives a more durable surface to the

bricks. It is indispensable to the moulder fer pre- 2

ART OF MAKING BRICKS AND TILES. 123

venting the bricks from sticking to his mould. It also
prevents the bricks from sticking together on the hacks,
and from breaking up into cracks and ﬂaws when cool-
ing, after being burnt. Lastly, the salt in the river
sand becomes decomposed in the burning, and assists
in ﬂuxing the brick-earth, and in giving the bricks their
grey colour. Common sand burns of a red tint, and
would injure the colour of the London bricks. '

10. General Arrangement of a Brickwork—This will
be readily understood by reference to ﬁg. 1. The brick-
earth is turned over to receive the malm as near as
possible to the clay pits. The clay and chalk mills are
placed close tOgether in some convenient position, so
as to interfere with the works as little as can be helped,
and the malm is conveyed from them to the heap of
brick-earth, by means of troughs or shoots supported
on tressels.

Close to the brick-earth, and immediately behind the
moulding stool is placed the pug-mill, and in front of
the moulding stool is the hack ground, which should, if
possible, be laid out with a gentle fall towards the
clamps, which is placed at its furthest extremity.
These arrangements are of course much modiﬁed by the
circumstances of the locality.

11. The Chalk and Clay Milka—These washing;
mills are placed close together on alarge double mound,
suﬂiciently elevated to allow the malm to run down
freely to the brick-earth. The chalk-mill is-a circular
trough lined with brickwork, in which the chalk is
ground by the action of two heavy wheels with spiked
tires, made to revolve by either one or two horses. The
trough is supplied with water by a pump, the lever of
which is worked by the machinery of the clay-mill, and
as the Chalk becomes ground into pulp it passes, by

G 2

RUDIMENTS OF THE

124

Fig. l.

 

 

 

 

 

 

 

 

 

 

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ARI‘ or MAKING BRICKS AND TILES. 125

means of a shoot, into the clay-mill. The clay-mill is
also a circular trough, lined with brickwork, but much
larger than that of the chalk-mill ; and in this trough
the clay is mixed with the pulp from the chalk-mill, and
is cut and stirred by knives and barrows put in motion
by two horses, until the whole mass is reduced to the
consistency of cream, when it passes of? through abrass
grating into the troughs or shoots, and is conducted to
the brick earth which has been heaped up to receive it.
The machinery of the washing-mills is very fully de-
lineated in figs. 2 to 10, and is described in detail in
arts. 53 and 54:.

12. The Pug-mill.—The pug-mill used in brick-
making is a conical tub, with its larger end uppermost,
in the centre of which is a revolving vertical shaft of
iron, to which are attached horizontal knives, inclined
so that the clay is slowly forced downwards by their
motion. The top and bottom knives are called force
knives, and their use is merely to force the earth
through the mill, and out at the ejectment hole 3 all the
other knives are furnished with cross knives, which
assist in cutting the clay, and breaking up any hard
lumps that may not have been broken up by the previous
wintering and turning over. In order to feed the mill,
an inclined barrow-run is laid up to it, to enable the
wheeler to tip the clay in at the top.

The construction of the pug-mill is shown in ﬁgs. 11
and 12.

13. The Cuchhold, ﬁg. 13, is ‘ an instrument for
cutting off lumps of the tempered clay for the use of
the moulder, as it is ejected from the pug-mill, and
requires no particular description.

14:. The Moulding Stool.——The moulding stool is
quite different from that used in most parts of the

1:30

RUDIMENTS

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ART OF MAKING BRICKS AND TILES. 127

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ART OF MAKING BRICKS AND TILES 129

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AR/I‘ OF MAKING BRICKS AND TILES. 133

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and close to the moulder’sleft hand. These particulars
will be fully understood by reference to ﬁg. 13, and to
the detailed description in art. 56.

ART on MAKING BRICKS AND TILES 135

15. The Brick Mould is made of sheet iron, in four
pieces, riveted together at the angles, and strengthened
with wood at the sides only. The bottom of the mould
is detached, and forms what is called the Stock-board.
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16. The Stock-board is a piece of wood plated with
iron round the upper edge, and made to ﬁt the mould

136 RUDIMENTS or THE

accurately, but easily. At each corner an iron pin is
driven into the moulding stool, and on these pins the
bottom of the mould rests, the thickness of the brick
being regulated by the distance to which the pins are
driven below the top of the stock-board. The hollow
in the bed of the brick is produced by a rectangular
piece of wood, called a kick, of the size and shape of the
hollow required, which is fastened on the upper side of
the stock-board. ‘

17. The Strike is a smooth piece of wood, about
10 in. long by 1:} in. wide and ii in. thick, and is used
to remove the superﬂuous clay in the process of
moulding.

The Pallets are pieces of board gin. thick, and of
the exact width of the mould, but about 3- in. longer.
Three sets of pallets, twenty-six in each set, are re-
quired for each moulder at work.

18. The Hack Barrow, ﬁgs. 15 and 16, is of a pecu-
liar construction. It consists of a light frame, sup-
porting a ﬂat top of lattice work, on which the bricks
are placed in two parallel rows, thirteen in each row.
Three barrows are required for each moulder.

19. The Hack Ground occupies the space between
the moulding stool and the clamp. It should be well
drained, and it is desirable that it should be on a slight
fall towards the clamp, as this lessens the labour of
wheeling. The foundations of the hacks are slightly
raised. It is of importance that the barrow-runs be-
tween the hacks should be perfectly even, as any jolting
of the hack barrow would injure the shape of the raw
bricks, which, when ﬁrst turned out of the mould, are
very soft. The hacks are placed 11 ft. apart, measured
from centre to centre, their length varying according to
the shape of the ground. It is very diﬂicult to say

ART or MAKING BRICKS AND TILES. 137

Fig. 15.

 

 

 

 

what extent of hack ground should be allotted to each
moulding stool, as this varies greatly in different yards.
In round numbers, the quantity of land required for a
brickwork may be stated at from 1-;- to 2 acres for each

138 RUDIMENTS on THE .

Fig. 16.

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moulding stool, but this includes the Whole of the land
required for the several purposes.

II.—PROCESS OF MANUFACTURE.
20. Clay Digging.-—The ﬁrst turning over of the
brick-earth should take place in the autumn, in order
that it may have the beneﬁt of the. winter frosts before

ART or MAKING BRICKS AND ’1'1LES. 139

being used. The vegetable mould and top soil having
been wheeled to spoil, the brick-earth is turned up three
or four spits deep, and laid on a level ﬂoor, prepared for
the pu1 pose, and banked 1ound to prevent the escape of
the malm 1n the process of malming.

21. The quantity of clay required per 1 ,000 b1icks 1s
variable, of strong clay more being required than of
milder qualities.

It is generally calculated that an acre 1 ft. deep, or
about 1,600 cubic yards of clay, will make 1,000,000
bricks, but strong clays will require from 182 to 200
cubic yards per 100,000 bricks. For practical purposes
the quantity may be thus approximately stated :—

Strong clay 2 cubic yards per 1,000'bricks.
Mild clay 1% cubic yard per 1,000 bricks.

22. Malmz'ng.—It has been before explained that the
best bricks only are made entirely of malm, but that the
process of malming is resorted to for other descriptions
of bricks, where the quality of the clay renders it unﬁt
for brickmaking without this addition. It will, therefore,
be readily understood that the quantity of malm mixed
with the clay in the ordinary process ‘of brickmaking
varies very considerably, so that it is impossible to
say, (‘1. priori, what quantity of malm should be used, as
this must be left to the judgment of the brickmaker in
each particular case, according to the quality of the
earth.

To keep the washing-mills in full work are required——

To the chalk-mill, 2 diggers and 1 wheeler.
To the clay-mill, 4« diggers and 2 wheelers.

The chalk-mill is worked sometimes with one, and
sometimes with two horses. The clay-mill always re-
quires two horses. No drivers are required.

140 RUDIMENTS OF THE

The average work of the washing-mills, working 10
hours a day, may be taken at about 12 cubic yards of
malm,* or sufﬁcient for making 6,000 malm bricks.

The process of malming scarcely requires description.
Water having been pumped into the troughs, chalk is
wheeled to the chalk-mill, and clay to the clay-mill,
and the horses being driven round, the chalk is crushed
and ground by the wheels, and runs through the outlet
into the clay-mill, where both chalk and clay get well
mixed by the harrows, the liquid malm ﬂowing out
through the brass grating to the shoots, by which it is
conducted to the brick-earth. As the heap becomes
covered the shoots are shifted, so that the malm shall
be equally distributed over every part of the heap.

When a sufﬁcient quantity of malm has been run oﬂ",
it is left to settle for a month or more, until it has
become sufﬁciently consolidated to bear a man walking
over it. As the solid portion of the malm settles, the
water is drained off from time to time, and when the
mass is sufﬁciently ﬁrm, the sailing is proceeded
with.

23. Soilz'ng.-—The proportion of ashes depends very
much on the quality of the earth, but may be stated
approximately at about 35 chaldrons for every 100,000
bricks. The soil is laid on the top of the malmed earth,
the thickness of the layer depending on that of the
heap, about 3 in. of ashes being allowed for every spit
of earth.

The soiling concludes the preparation of the brick.
earth, which is allowed to remain undisturbed until the

* At a manufactory of artiﬁcial hydraulic lime at Meudon, near Paris,
the chalk and clay are ground together in a washing-mill, of the same
construction as those used in England, and worked by two horses. The
quantity of malm produced is about 1% cubic yard per hour.—See Vice:
on Cements.

ART OF MAKING BRICKS AND TILES. 14.1

moulding season, which generally commences in April.
The ﬁrst process of the actual manufacture is—

24. Tempering.—The heap, prepared as above, is
turned over by spade labour, and the ashes thoroughly
mcorporated with it, water being added to bring the
mass to a proper consistency. The tempered clay is
then wheeled to the pug-mill, which, as before stated, is
placed close to the clay heap, and immediately behind
the moulding-stool.

25. Puggz'ng.—The tempered clay being thrown in
at the top of the mill, gradually passes through it, and
in so doing becomes so thoroughly kneaded as to be of
a. uniform colour, the ashes being equally distributed
through the mass. The quantity of clay ground is
about 15g cubic yard per hour, so that a horse working
10 hours per diem will grind 12% cubic yards of clay,
or sufﬁcient to make 6,250 bricks.

If the moulding process does not proceed as fast as
the pugging, so that the clay will not be immediately
used, the clay, as it comes out at the bottom of the
mill, is removed with the cuckhold, and covered with
sacks, to keep it from becoming too dry for use.

26. Moulding.—Before commencing moulding, the
moulding-stool is provided with two heaps of dry sand,
a tub of water, in which to place the strike, a stock-
board and brick-mould, and three sets of pallets.
Everything being in readiness, and a supply of tem-
pered clay having been placed on the stool by the feeder,
whose business it is to carry the tempered clay from the
pug-mill to the moulding-stool, the clot-moulder, who
is generally a woman, sprinkles the stool with dry sand,
and taking a clad, or clot, from the heap of tempered
clay, dexterously kneads and moulds it roughly into the
shape of a brick, and passes it to the moulder on her

142 RUDIMENI-s or rm:

left hand. The moulder, having sprinkled sand on the
stock-board, and dashed the mould into the sand-heap
on his left hand, places the mould on the stock-board,
and dashes the clot into it with force, pressing it with
his ﬁngers, so as to force the clay into the angles of
the mould. He then, with the strike, which has been
well wetted in the water-tub, removes the superﬂuous
clay, which he throws back to the clot-moulder to be
remoulded. The mould is then lifted off the stock-
board, and placed by the moulder against one of the
pallets, which he catches dexterously with his ﬁngers,
and, turning out the raw brick upon it, slides it along
the page to the taking-off boy, and, lifting up the
empty mould, dashes it into the sand, and replaces it
on the stock-board, preparatory to moulding a second
brick; when he has moulded one set of bricks, he
scrapes away the sand which has adhered to the mould
during the operation with the strike, and then proceeds
with the next set. A moulder and clot-moulder, with
the assistance of a feeder, a taking-off boy, and two
men to wheel and hack the bricks, will make about
5,000 bricks between 6 A.M. and 6 P.M.; but this
quantity is often exceeded?!<

27. Hacking—The raw brick is removed from the
page by the taking-off boy and placed on the hack
barrow, and when the latter is loaded, dry sand is
sprinkled over the bricks, and they are carefully
wheeled away to the hack ground. Having arrived at
that part of the ground where the hack is to be com—
meneed, the man takes a spare pallet and places it on

“‘ See the following :—“ Brickmaking. On Wednesday last, J 08. Bush,
at Pcterskye. Cumberland, performed the feat of making 1,000 bricks in
an hour; 100 in ﬁve minutes ; and 26 in one minute.”—C'arlz§sle Journal.
(This is not a solitary instance.)

ART or MAKING BRICKS AND TILES. 1113

one of the bricks, which he carries between the two
pallets to the ground, and sets it up carefully edgeways,
' taking care in removing the pallets not to injure the
‘ shape of the soft brick. One of the pallets is replaced
on the barrow, and with the other another brick is
removed ; and the process is repeated till the twenty-six
bricks have been placed on the ground, when the empty
barrow is wheeled back to the moulding stool. In the
meantime another barrow has been loaded, and is ready
for wheeling to the hack ground. Three hack barrows
are required, so that one of them is constantly being
unloaded upon the hack ground, another loading at the
moulding stool, and the third being wheeled to or from
the hack ground. Thus two men are necessarily em-
ployed in the operations of wheeling and hacking. The
hacks are set up two bricks in width, the bricks being
placed slantwise, and not at right angles, to the length
of the back. After the bottom row of one hack is com—
; pleted, a second hack is commenced, to give the bricks
time to harden before a second course is laid on them 3
. and when the second course is commenced, the bricks
: must be placed fairly on each other, or they will be
.marked, which injures their appearance. The hacks
are carried up in this way until they are 8 bricks
high, when they are left for a few days to harden. To
protect the new bricks from frost, wet, or intense heat,
straw or reeds are provided and laid alongside the hack;
and with these the bricks are carefully covered up at
night, and at such other times as the weather may
render necessary. When half dry, they are scim‘led, *
that is, set farther apar,t to allow the Wind to pass
freely between them, and they receive no further atten-
tion until sufﬁciently d1y for bulnin". The time

" Literally, scattered.

144 RUDIMENTS OF THE

required for drying varies from three to 31x weeks,
according to the weather.*

28. Clamping—Figures 17, 18, 19, 20, and 21. The
process of clamping requires great skill, and its prac-
tical details are little understood, except by the work-
men engaged in this part of the manufacture. Scarcely
any two clamps are built exactly alike, the differences
in the methods employed arising from the greater skill
or carelessness of the workmen, and local circumstances,
such as the situation of the clamp, and the abundance
or scarcity of burnt bricks in the yard with which to
form the foundation and the outside casing. We pro-
pose, therefore, ﬁrst to describe the method of building
a clamp, according to the most approved system, and
then to explain the principal variations practised in
different yards.

29. A clamp consists of a number of walls or necks,
3 bricks thick, about 60 bricks long, and 24 to 30 bricks
high, in an inclined position on each side of an upright
or double battering wall in the centre of the clamp, the
upright being of the same length and height as the
necks, but diminishing from 6 bricks thick at bottom
to 3 bricks thick at top. The sides and top of the

‘ Mr. H. Chamberlain, in a paper read before the Society of Arts, IV.
515, speaks of the great importance of drying bricks :—“ The drying of
bricks ready for burning is a matter of great importance, and requires
more attention than it generally receives. From hand-made bricks we
have to evaporate some 25 per cent. of water before it is safe to burn ,
them. In a work requiring the make of 20,000 bricks per day, we have
to evaporate more than 20 tons of water every 24 hours. Hand-made .
bricks lose in drying about one-fourth of their weight, and in drying and
burning about one-third. The average of machine bricks—those made
of the stiff plastic clay «do not lose more than half the above amount .
from evaporation, and are, therefore, of much greater speciﬁc gravity '
than hand-made ones.” The artiﬁcial drying of bricks over ﬂues can of
course only be carried on where coal is cheap. Mr. Beart has contrivea
a steam chamber, where steam made to circulate in pipes is the source of 2
heat for drying the bricks.

145

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RUDIMENTS OF THE

 

 

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ART OF MAKING BRICKS AND TILES. 149

clamp are cased with burnt brick. The fuel used in
burning the laid bricks consists of cindcrs (breeze, as
before described),which are distributed in layers between
the courses of bricks, the strata of breeze being thickest
at the bottom. To light the clamp, live [roles or ﬂues,
7 in. wide and 9 in. high, are left in the centre of the
upright, and at every 7th or neck. These live holes
extend through the whole thickness of the clamp, and
are ﬁlled with faggots, which, being lighted from the
outside, soon ignite the adjacent breeze. As soon as
the clamp is fairly lighted, the mouths of the live holes
are stopped, and the clamp burns until the whole of the
breeze is consumed, which takes from three to six
weeks. This description will give the reader a general
idea of the arrangement of a clamp; and we will now
describe in detail the manner of building one, premising
that the term close bolting signiﬁes stacking bricks so
that they shall be perfectly close to each other; and
that scintlz'ng means stacking bricks with spaces be-
tween them.

30. Foundation.—The ground is ﬁrst carefully drained
and levelled, and made perfectly ﬁrm and hard. The
exact position of the clamp having been ﬁxed, the
ground is formed with a ﬂat invert whose chord is
equal to the width of the intended clamp. The object
of this is to give a szt to each side of the clamp, which
prevents the bricks from falling outwards as the breeze
becomes consumed. The ground being prepared, the
upright is commenced. But, previous to building, the
clamp barrow-roads or tramways of sheet-iron are laid
down between the hacks, and extended to the clamp
ground, to give an easy motioi. to the barrows ; as, from
the kind of barrows used in clamping, the bricks being
piled on each other several courses high, and the

15o RUDIMENTS or THE

wheeling carried on with considerable velocity, they are
apt to upset.

31. Upright—The upright is commenced by building
two 9 inch battering walls about 45 ft. apart, of burnt
bricks laid on edge, which are termed close bolts, the
length of each wall being equal to the thickness of the
upright, which at the bottom is 6 bricks thick, or about
4 ft. 6 in. (their height is 16 courses, or about 6 ft.).
Between these bolts a line is stretched, by which the
upright is built true. The ground between the bolts is .
paved with burnt bricks laid on edge, to exclude the
moisture of the ground. Upon this paving are laid
two courses of burnt bricks with spaces between them,
termed scintles. In the bottom course of scintles the .
bricks are laid diagonally about 2 in. apart. The
second course consists of burnt bricks on edge, laid
across the lower one, in lines parallel to the ends of the
clamp, and also 2 in. apart. In laying these two courses _.
of scintles, a live hole is left about 7 in. wide, the whole :1
length of the upright; and, 011 the completion of the
second course, the live hole is ﬁlled up with faggots, and
the whole surface covered over with breeze, which is
swept or scraped into the spaces left between the bricks.
On this surface is placed the ﬁrst course of raw bricks, -
laid on edge and quite close, beginning over the live-
hole. Over this ﬁrst course of raw bricks is laid a
stratum of breeze 7 in. thick, the depth being increased,
at the ends of the uprights, to 9 or 10 inches, by inserting.
three or four bricks on edge among the breeze. The
object of this is to give an extra lift to the ends. The
ﬁrst course of bricks, it should be observed, is laid all
headers. Over the ﬁrst layer of breeze is laid a second
course of raw bricks on edge, all stretchers. This is:
covered with Al in. of breeze, and at each end are inserted}

ART or MAKING BRICKS AND TILES. 151

two or three bricks to increase the lift still more 3 but this
time they are laid ﬂat, not edgeways. Upon the 4 in.
layer of breeze is laid a heading course of raw bricks laid
close, and on this 2 in. of breeze, without any extra lift at
the end. To this succeed stretching and heading courses
of raw bricks on edge, laid close up to the top of the
clamp, a layer of breeze, not more than 3- in. thick, being
placed on the t0p of each course, except on the top
course, which has 3 in. of breeze. The top of the up-
right is ﬁnished by a close bolt of burnt bricks. The
upright is built with an equal batter on each side, its
Width diminishing from six bricks lengthways at the
base to three bricks lengthways at the top. In order
that the upright should be perfectly ﬁrm, it is necessary
that the bricks should be well tied in at the angles;
and, in order to obtain the proper width, the bricks
are placed in a variety of positions, so that no very
regular bond is preserved, as it is of more consequence
to keep the batter uniform.

The close bolts ﬁrst commenced, and which form the
outer casing of the clamp, are not built close to the raw
bricks, there being a small space left between the clamp
and the close bolting, which is ﬁlled up with breeze.
The close bolts, however, are built with a greater batter
than the ends of the upright, so that they just touch the
latter at the 16th course, above which the clamp is built
without any external casing. When, however, the up-
right is topped, and whilst the top close bolting is going
on, the casing is continued up to the top of the clamp.
This upper casing is called the bestowing, and consists
of ﬁve or six courses of burnt brick laid ﬂat, forming a
casing 41% in. or half a brick thick; and above the 6th

ourse the bricks are laid on edge, forming a still
hinner casing only 3 in. thick. When the weather is

152 RUDIMENTS or THE

bad, and during the latter part of the brickmaking
season, a little extra bestowing is given beyond What is
here described. The great art in clamping consists in
the proper construction of the upright, as the stability
of the clamp depends entirely upon it.

32. Necks—The remainder of the clamp consists of
a number of necks or walls leaning against the upright.
They are built in precisely the same way as the upright,
as regards invert, close bolts, paving, scintling, breeze,
and end lifts. But there is this essential difference, viz.,
that they are parallel walls, built in alternate courses of .
headers and stretchers laid on edge, each heading course
in one neck being opposite to a stretching course in the
next neck, and vice rersd. The thickness of each neck
is made up of three bricks lengthways in the heading
courses, and ten bricks edgeways in the stretching
courses. The necks are close bolted at top, and be»
stowed in the same manner as the upright. When the
last necks have been built, the ends of the clamp are
close bolted, and bestowed in the same way as the sides,
and this operation completes the clamp.

33. Firing—The number of necks on each side of ’
the upright may be extended to eight or nine, without:
an additional live hole; but if this limit be exceeded,.
additional live holes are required, according to the-
judgment of the brickmaker or the demand for bricks, .
the live holes are placed seven, eight, or nine necks-
apart. It is not necessary that the additional live holes-
should pass under the centres of the necks, and it is;
more convenient to form each live hole so that the face
of the last-built neck shall form one of its sides.

In the close bolting surrounding the clamp, two bricks:
are left out opposite the end of each live hole, and 1301
each of these openings a ﬁre is applied made of coals,,

ART OF MAKING BRICKS AND TILES. 155

and wood heaped up in a brick ﬁre-place built round
the opening, and known by the name of a devil-stove.
The ﬁre is kept up for about a day, until the faggots in
the live hole are thoroughly ignited, and as s00n as this
is found to be the case, the ﬁre is removed, and the
mouth of the live hole stopped with bricks, and plastered
over with clay. In ﬁring a large clamp with many live
holes, it should be begun at one end only, the live holes
being ﬁred in succession, one after the other.

The bricks at the outside of the clamp are under-
burnt 3 they are called burnovers, and are laid aside
for reburning in the next clamp that may be built.
The bricks near the live holes are generally partially
melted and run together in masses called clinkers or
burrs. The bricks which are not fully burnt are called
place bricks, and are sold at a low price, being unﬁt for
outside work, or situations where they will be subjected
to much pressure. The clinkers are sold by the cart-
. load, for rockwork in gardens and similar purposes.

34:. The quantity of breeze required varies much with
die ' quality of the earth. The usual proportions for
every 100,000 bricks are about 35 chaldrons of the sifted
, ashes, mixed with the brick-earth, and about 12 chal-
drons of the cinders or breeze to light the clamp.

The quantity of fuel to the live holes it is diﬁ‘icult to
calculate; about 23. may be taken as the average cost
of coals and wood for every 100,000 bricks.

35. If the proportion of breeze be too small, the
' bricks will be underburned, and will be tender and of
a pale colour. If too much fuel be used, there is danger
of the bricks fusing and running into a blackish slag.
No rules can be laid down for avoiding these errors,
as the management of the breeze must depend upon the
quality of the earth, and can only be learnt from

H 3

RUDIMENTS OF THE
15“

experience, some brick-earths being much more fusible
than others.

36. The time of burning varies considerably. If ex-
pedition is requisite, the ﬂues are placed near together,
and the burning may be completed in a fortnight or
three weeks; but, if time is no object, the ﬂues are
further apart, and the clamp is allowed to burn off more
slowly.

37. Another system of clamping is to begin at one
end and to follow with the necks in one direction only.
This is done when the clamp ground is partly occupied
by the hacks, so as to render it impossible to commence
at the centre. When this system is adopted, the clamp.
ing begins with the erection of an end-wall, termed the
upright and outside, which is made to batter very con-
siderably on the outside, but of which the inside face is
vertical. As regards dimensions and modes of building,
the outside and upright is built in the same way as the
ordinary upright, but it has, of course, no live hole under
it, the ﬁrst live hole being provided in the centre of the
2nd or 3rd neck. In the style of clamping the necks
are all upright. The live holes are placed at every 8th
or 9th neck, as in the usual system.

38. We now proceed to desc1ibe the principal varia-
tions 1n the methods of clamping practised in different
brick-yar.ds

Paving.—The practice with regard to the paving of
burnt b1icks is very variable. Some clampe1s omit it
altogether, othe1 s pave only whe1e clamping for the ﬁrst
time on a new clamp ground.

Scintles. —When burnt bricks run short, as in build-
ing the ﬁrst clamp on a new ground, the second course
is laid with raw bricks. This, however, is a very objeca
tionable practice.

ART or MAKING BRICKS AND TILES. 155

Mac Balm—The live holes are sometimes close-
bolted at the sides, to prevent the breeze from the
scintles falling into them. This, howeVer, is not often
done, and its utility is questionable.

Breeze.——Some clampers put the 7 in. stratum of
breeze on the top of the scintles, instead of placing it
over the 1st course of raw bricks; very frequently the
breeze is dispensed with after the 2 in. stratum, with
the exception of the top layer. All clampers, however,
agree as to the necessity of having the 7 in., 4 in., and
2 in. layers.

39. The several descriptions of bricks made for the
London market, and their relative prices, as given in
. Lockwood’s “ Builders’ and Contractors’ Price Book for
I 1892,” are as under (delivered on the job in London),
V1Z.:—-

£ 3. d.

Stocks . . . . . per 1,000 2 4 0
Grizzles . . . . . ,, 2 0 0
Place . . . . . ,, 1 16 0
Picked stocks . . . . ,, 2 5 0
Red ditto . . . . . ,, 2 l7 6
Best malm facings . . . ,, 5 0 0
Seconds ditto . . . . ,, 4 15 0
White Suffolk facings . . ,, 4 5 0
Seconds ditto . . . . ,, 4 0 0
Cutters ditto . . . . ,, 7 10 0 "
Fareham red facings . . ,, 4 17 0“
,, rubbers . . ,, 6 10 0
Bracknell machine made facings ,, 3 2 0
, , hand made ditto 3 7 0

The prices of the various kinds of ﬁre-bricks will be found at page 18.

The bricks commonly sold are known by the follow-
ing terms :—

Unitas—These are the softest, and are used for
gauged arches and other rubbed work.

Mama—These are the best building bricks, and are
only used in the best descriptions of brickwork; colour
yellow.

156 RUDIMENTS or THE

Seconds.—These are sorted from the best qualities,
and are much used for the fronts of buildings of a
superior class.

Paviours.—These are excellent building bricks, being
sound, hard, well shaped, and of good colour. They
must not be confounded with paving bricks, having
nothing in common with them but their name.

Pickings.——These are good bricks, but soft, and
inferior to the best paviours.

Rough Paviours.—These are the roughest pickings
from the paviours.

Washed Stocks.—These are the bricks commonly used
for ordinary brickwork, and are the worst description of
malms.

Grey Stocks—These are good bricks, but of irregular
colour, and are not suited for face work.

Rough Stoch3.——These are, as their name implies, very
rough as regards shape and colour, and not suited for
good work, although hard and sound.

Grizzles.—These are somewhat tender, and only ﬁt
for inside work.

Place Bricks—These are only ﬁt for common purposes,
and should not be used for permanent erections.

Shuﬁs.—-These are unsound and shuﬂ'y—that is, full
of shakes.

Burrs 07' CZz'nkers.—These are only used for making
artiﬁcial rockwork for cascades or gardens, 8:0.

Balm—These are merely refuse.

It may be here observed, that at the brickworks
round London the bricks made are usually in the form
of regular parallelopipedons, 9 in. long, 4% in. wide, and
3 in. thick. If in the execution of apiece of brickwork,
bricks of other shapes are required, it was formerly the
practice, and still sometimes is, for the bricklayer to cut

ART or MAKING BRICKS AND TILES. 157

' the ordinary bricks to the required shape. This practice,
so destructive to sound bond and good work, cannot be
' too strongly reprehended; * especially now that the
- manufacture is free from the trammels of the excise
‘ there can be no excuse for not making bricks of a great
' variety of shapes for various purposes.
40. Bric/cma/cz’ng‘et Cheshunt—In the “ Illustrations
, of Arts and Manufactures,” by Mr. Arthur Aikin, is a
valuable paper on pottery and brickmaking, the perusal
. of which is strongly recommended to the reader. The
' following notice is there given of the Cheshunt bricks :—
“At Cheshunt, in Hertfordshire, is a bed of malm earth
of the ﬁnest quality, no less than 25 ft. in depth; from
:this are made the best small kiln-burnt bricks, called
3 paviers.” Not having an opportunity of personally
. examining the Cheshunt works, the author requested
j Mr. B. P. Stockman to do so, and, in reply, received
1 the following communication, from which it appears that
} kiln burning has been now disused for some time at
1 Cheshunt 3 clamping being now generally adopted :—
“There are no bricks now made near London of
natural malm 3 the once well-known bed at Grays in
.Essex has been exhausted some years. No one can
inform me of any bed of natural malm except that at
Cheshunt, and I was told, previous to my going there,
' that I should not ﬁnd the works conducted as I had
" been led to expect from your letter.
“ There are only two brickmakers at Cheshunt, and,
'frOm going over their works, I am able to vouch for
: the accuracy of the following particulars.

* The brick columns, whose failure caused the frightful accident which
occurred in January, A.D. 18-18, during the erection of the new buildings
at the Euston Station of the North Western Railway, were built in this
way. The additional cost of bricks made expressly for the work, of such
forms as would have bonded properly together without any cutting, would
. have been very triﬂing.

158 RUDIMENTS on THE

“ There is a bed of natural malm, and a bed close to
it of ordinary brick-earth, which also contains malm.
When they make malms, which they were not doing at
the time of my visit, they do not use the natural malm
earth by itself, but wash and mix chalk with it, and I
am told that they never have made malms without
adding chalk to the natural earth, although the prepor-
tion is small compared to that required for the other
bed from which they also make malms. The earth is
soiled with ashes precisely in the same way as in the
London works, and turned over and pugged in the
same kind of pug-mill. The bricks are hacked and
clamped, as in London, and there are none burnt in
kilns, nor have been for many years. There are no
kilns on the ground, and no kiln burning of any
description, though in former years there used to be
kilns for bricks and tiles, and also for glazed ware.

“ The bricks made at Cheshunt are very superior to
the London bricks ; in fact, the stock made there is
really a kind of malm brick, and the malms themselves,
as you may suppose, are perfection. I examined the
brick-earth from both pits, and saw the several processes
of moulding, hacking, scintling, and clamping going
on. The names of the different qualities are the same
as in London; but, as regards quality, some of the
common descriptions are equal to the London malms,
and I believe the shuﬁ's would be sold for malms in
London.”

41. Brickmaking is carried on to a great extent all
round the metropolis, but the principal brick-ﬁelds are
situated north of the Thames.

ART OF MAKING BRICKS AND TILES. 159

III. COST OF MANUFAQTURE.

42. We propose to consider the cost of manufacture
under three heads, viz.:-—
1. Materials and fuel.
2. Machinery and tools.
3. Labour.

I. MATERIALS AND FUEL.

43. Clay—The cost of brick-earth must depend very
much on the circumstances of the locality, but it is
usually considered to be worth 28. 6d. per 1,000 bricks,
exclusive of getting.

44:. Chalice—The cost of chalk is triﬂing Where the
works have the advantage of water carriage, as it can
be brought to the canal Wharfs round London at 23. 10d.
per ton. To this must be added the cartage, Which, in
some cases, must be a serious expense.

45. Sand.—The above remarks apply to the mould-
ing sand 3 Which is brought from the bed of the Thames,
near VVoolwich, in barges to the canal Wharfs at 28.
per ton, a ton being about 1;} cubic yard. To this must
be added cartage, and labour in drying the sand to
make it ﬁt for use.

It is difﬁcult to say What quantity of sand is used per
1,000 bricks, but the cost may be taken approximately
; at from 6d. to 8d. per 1,000 bricks.

46. Breeze—The quantity of breeze required varies
; according to circumstances 3 the proportion may be
‘ taken to range from 12 to 20 chaldrons per 100,000
bricks, The cost of breeze may be taken at about 48. 6d.

I60 RUDIMENTS or THE

per chaldron. It may here be mentioned, that in
London stringent regulations are in force to prevent
householders from making use of their domestic ashes,
which are collected by parties who contract with the
parish authorities for this privilege.

In the Midland Counties the domestic ashes are
generally used for manure, the ashes being thrown into
the cesspools, an arrangement which would not be per-
mitted in the metropolis. This mode of disposing of
the domestic ashes completely prevents the use of breeze
in the manufacture of bricks in the district where it is
practised.

47. Soil.—The cost of soiling cannot be very accu-
ratcly ascertained. The quantity of soil required de-
pends much on the quality of the brick-earth ,- 35
chaldrons per 100,000 bricks may be considered a fair
average. The cost per chaldron may be taken at 38. to
48. To this must be added the cost of harrowing to the
clay heap, 148. to 158. per 100,000 bricks.

48. 00018 and Wood—The quantity of faggots re-
quired will depend on the number of live holes. This
item of expense is very triﬂing, say 28. per 100,000 for
faggots and coals to light the clamp.

49. IVaz‘er.——The water required for the washing-
mills is pumped into the troughs as before described,
and as shown in the drawings of the washing-mills,
ﬁg. '7. That which is used in tempering the clay is
brought in buckets from the nearest pond on the works.
In some yards the supply is drawn from wells by the
contrivance known in the East as a shadoof, and in use
at the present day in Germany, and throughout Russia.
This simple contrivance is described at page 3 of Mr.
Glynn’s “Rudimentary Treatise on the Construction
of Cranes and Machinery,” and the reader is there.

ART or MAKING BRICKS AND TILES. 161

fore referred to the description and wood- cut them
given.

It may, however, be worth while to remark, that there
is scarcely any difference between the ancient sizadoof
used in Egypt in the time of the Israelitish bondage
and that in common use at Stoke Newington, and other
places near London, in our own time.

It is impossible to make any calculation as to the
proportionate cost of the necessary supply of water
to a brickﬁeld, as it forms a portion of the cost of
tempering, and cannot be separated from it.

II. MACHINERY AND TOOLS.

50. The average cost of the machinery and tools re-
quired in a London brickﬁeld is about as follows :—

£ 3. d.

Chalk and clay mills, together . . . £60 to 70 O 0

Pug- mill. . . . . 15 0 0

Cuckhold . . . . . 58. to O 6 0
For each moulder are required—

1 moulding stool, complete, at . . 1 1 O

1 mould . . 0 10 6

3 sets of pallets, 26 m each set . . at 9.9. 1 7 0

3 bearing- -off barrows . . . at 303. 4 10 0

In addition to the above are required, a few planks,
shovels, barrows, buckets, sieves, and other articles, the
aggregate cost of which it is impossible to estimate.

N 0 buildings are required for the actual manufacture.

It is, however, usual for the foreman, or “ moulder,”
' to live at the ﬁeld. Stabling may be required or not,
according to circumstances and locality.

162 RUDIMENTS OF THE

III. LABOUR.

51. The present cost of labour, &c., near London,

may be taken as follows :—
Per 1,000 bricks.

:8 s, (2?.
Rent of ﬁeld . . . . . . O 0 6
Aslu s . . . . . . 0 2 0
Removing top mould . . . . . 0 0 2
Din'ginsr ea1th . . . . . 0 0 7
Soiling' and turning; earth . . . . 0 0 G
Chalk and expense of washing . . . 0 1 4
Moulding . . . . . . 0 5 6
IIo1so grinding earth . . 0 O 6
Sand . . . . . . 0 0 6
C our boards . . 0 0 2
Setting. . . . . . . 0 l 10
Belting, sorting, &c. . . . . 0 0 3
Lo: 1dinn' . . . . . 0 0 6
Implements, &C. . . . . . 0 0 G
Superintendence . . . . 0 0 6
Interest on capital . . . O 1 0
R01 alty 0 2 6
13 1d debts 0 1 0

131011111111r lu'uks obtaining 11at01, making:
loads, coals and wood 1n burning, materials
for building sand-houses, and 011100 ex-
penses . . . . . . . O 2 O
1 1 10
This is the actual cost for every thousand bricks
before they leave the ﬁeld; and in order to secure a
fair profit the stock bricks must be sold at £1 128. per
1,000; while the place bricks will sell at from 158. to
£1 18., the grizzles and rough bricks at from £1 58. to
£1 88., and the shuﬂs at from 83. to 108. per 1,000.

 

AMERICAN OPIN ION ON ENGLISH BRICKMAKING.
. The following remarks, by a recent American writer,’
will not be without interest to the readers of this
work :—

* C. T. Davis, in “A Practical Treatise on the Manufacture of
Bricks, Tiles, Terra Cotta, &c.”

ART or MAKING BRICKS AND TILES. 163

“English bricks are larger than those commonly
made in the United States, being usually 9 inches long,
4-;— wide, and 2% thick, after burning, but they are not
so strong, and are generally of an inferior quality.

“In fact, those made by the London brick-makers
are of the weakest sort, caused partly by the nature of
the clay used, but principally from the habit of mixing
ashes in large quantities with the clay; as the domestic
ashes which they use contain a large quantity of un-
burned coal, which is reduced to ashes in the process
of ﬁring, leaving the brick very porous, greatly weak-
ened, and generally shaky. This system is very un—
desirable, for two reasons : ﬁrst, it is certainly injurious
to the health of those who live in the neighbourhood
of the stacks, as refuse, frequently mixed with decom-
posed animal and vegetable matter, the contents of
dust holes, is used in the process of burning; second,
the matter of this kind which is sifted and mixed with
the clay, pieces of bone, and other substances of a
similarly objectionable character, not being infrequent,
is certain to yield an undesirable excrescence arising
from nitrogenous substances.

“The most nauseating Iumes often arise from the
stacks of bricks made and burned in this manner,
which tend to make the immediate neighbourhood of
one of these clamps anything but a desirable place for
a residence, especially during the hot, close months of
midsummer, which is the period during which the
greater amount of this kind of brick burning is done.

“ This manner of burning bricks should not be con-
founded with the prooess called ‘ clamping ’ so common,
and practised largely both in the United States and in
some parts of Great Britain remote from London, which

164 RUDIMENTS OF THE

is usually a method of burning bricks by placing them
in a temporary kiln, the walls of which are generally
built of ‘ green ’ or unburned bricks.

 

REFERENCE TO ILLUSTRATIONS ACCOMPANYING THE FORE-
GOING ACCOUNT OF BRICKMAKING IN THE VICINITY OF
LONDON.

52.—Fig. 1. General Plan of a Brickwork.
(Scale 40 ft. to an inch.)

. The chalk-mill.

. The clay washing-mill.

. The pump.

. The shoot to the brick-earth.

. The bn'ek-earth turned over in readiness to receive the malm.
. The pug-mill.

. The moulding stool.

. The hack ground.

. Clamps.

amazement!»

53. The Chalk-mill.

Figs. 2 and 3. Section and Plan. (Scale 10 ft. to an inch.)
a.a. Grinding-wheels.
b. Inlet from pump.
0. Outlet to clay washing-mill.
Details. (Scale 5 ft. to an inch.)
Fig. 4. Grinding-wheel.
Fig. 5. Mode of connecting the axle-tree of the grinding-wheels with
the centre shaft.

The mill consists of a circular trough lined with brick-
work, and furnished with a pair of heavy wheels with
spiked tires, which, being drawn round by horses, crush
and grind the chalk until it is reduced to a pulp. The
wheels are shown in detail in ﬁg. 4. It is necessary
that they should accommodate themselves to the level
Of the chalk in the trough, and to effect this, the framing

ART OF MAKING BRICKS AND TILES. 165

of which the axle-tree forms a part is secured to the
centre shaft by a staple, as shown in ﬁg. 5, which
allows the whole of the timbering to rise or fall, as may
be requisite. The centre shaft is a bar of iron, steadied
by being built up in a mass of brickwork. The yoke
beams are kept at the proper height, and their weight
supported by common light chaise wheels, about 2 ft. 6 in.
diameter, which run on the outside of the horse track.
The mill represented in these engravings is mounted for
two horses ,- many mills, however, have but one.

54. The Clay-washing Mill.

Figs. 6 and 7. Plan and elevation. (Scale 10 ft. to an inch.)
a. The inlet from the chalk mill.
6. The outlet to the shoot.
0.0. The barrows.
aid. The cutters.
e. The pump.
Details. (Scale 1%,- in. to 5 ft.)
Fig. 8. The cutters.
Fig. 9. The outlet to the shoot, and the strainer.
Fig. 10. The strainer.

The mill consists of a circular trough of larger dimen-
sions than that of the chalk-mill, also lined with brick-
work, and furnished with a two-horse gin, to which are
attached knives and barrows, which, in their passage
round the trough, cut up the clay and incorporate it
with the pulp from the chalk-mill. The framing of the
gin is very simple, and requires no description. The
knives, or cutters, are placed in two sets, four in each.
They are ﬁxed in an upright position, and steadied to
their work by chains, and by being bolted together with
bolts passing through tubular distance pieces, as shown
in ﬁg. 8. The knives cut the clay and clear the way
for the harrows, which me similar to those used for

agricultural purposes, and are/gag:— “mil by

or 7H5

UNCIV' ERSITY
. N‘A'

166 RUDIMENTS or THE

chains from the timber framing. The pump is worked
by the horizontal wheel F, ﬁg. 7, which is provided
with friction rollers on its rim, for the purpose of lifting
the lever G, which raises the lever of the pump by means
of the spindle H. The outlet to the shoots is simply a
square trunk made of 2 in. plank. It is furnished with
a brass grating, or strainer, shown in ﬁg. 10. The bars
are :2- in. wide, and :1- in. apart, so that even small stones
will not pass through. This grating is ﬁxed in grooves,
so that it can be lifted out of its place by the handles,
when required.

55. The Pug-mill.

'g. 11. Elevation. (Scale 4 ft. to an inch.)
a. The yoke arm.
5. The opening for the cjectment of the earth when ground.
0. The brick-earth surrounding the mill, on which is an
inclined barrow road to the top of the mill.
'5. 12. Section. (Scale 2 ft. to an inch.)
ma. Force knives. These are not provided with cross knives,
their purpose being merely to force the earth downwards
and out at the ejectmcnt hole.

51
Q

’31
q

Stir-Fig. 13. Isometrical View of the Moulding Stool.
(Scale 4 ft. to an inch.)

a. The lump of ground earth from the pug-mill.

6. The moulder’s sand.

0. The clot-moulder’s sand.

d. The bottom of the mould, termed the stock-board.

e. The water-tub.

f. The page, which is formed of two rods of gths of an inch round
or square iron, nailed down at each end to the wooden
rails or sleepers on which they rest. The use of the page
is to slide the new bricks, with their pallets, away from the
moulder with facility.

9. The pallets in their proper position for use.

It. A newly-made brick just slidden from the moulder, (and ready
for the taking-off boy.

It. The moulder’s place.

12:. The clot-moulder‘s place.

7;. The taking-off boy’s place.

9. The (luck/told, a concave shovel used for cutting off the ground:
earth as it is ejected from the pug-mill.

ART OF MAKING; BRICKS AND TILES. 167

75.-—Fig. 14. Isometrical View of the Brick Mould,
with its detached bottom or Stock-hoard. (Scale 2 in.
to a foot.)

a.a.a. The iron pegs on which the mould rests during the opera-
tion of moulding. They are driven into the stool in the
positions shown in the drawing ; their height from the stool
regulates the thickness of the brick. The mould is lined

throughout with sheet-iron, which is turned over the edges
of the mould at the top and bottom.

58.—Fig. 15. The Hack Barrow—loaded. (Scale 2 ft.
to an inch.)
1"

hi

g. 16. The hack barrow—unloaded. (Scale 2 ft. to an inch.)

59. The Clamp.

Fig. 1?. Transverse section (parallel to necks). (Scale 10 ft. to an
inch.)
Fig. 18. Longitudinal ditto ditto ditto.
a. The upright.
5.6. Close bolts.
6. Live hole.
d. Bestowing.
Details. (Scale 2 ft. to an inch.)
Fig. 19. Plan of the lower course of scintles.
g. 20. Plan of the upper course of scintles.
. The live hole.

It should be understood that the directions of the scintles,
as well as that of the paving below it, are changed for every
neck, so as to correspond with the upper work, as shown in
the ﬁgures.

Fig. 2]. Detail of the end of the upright, showing the paving, the
scintling, the live hole, and the 7 in., 4 in., and 2 in. courses of breeze.

 

CHAPTER VI.
LONDON TILERIES.

1. The general term, “ Tile Manufacture,” is so com-
prehensive, that it would be impossible, Within the limits
of a little volume like the present, to give anything like
a complete account of the manufacture of the different

168 RUDIMENTS or THE

articles made at a large tilery; we only propose, there-
fore, in the present chapter, to give a succinct account
of the manufacture of pantiles, as carried on at the
London tileries, which will serve to give the reader a
general idea of the nature of the processes employed in
tile-making. It must, however, be borne in mind, that
although the principle of proceeding is the same in each
case, there are no two articles made exactly in the same
way, the moulding and subsequent processes being
carried on in a different manner, and with different
tools and implements, for every description of article.

The manufacture of plain tiles and drain tiles has
already been described in Chap. IV., to which the
reader is referred, as also to the supplementary chapter
at page 220.

2. The following is a list of the principal articles
made at the London tileries :—

Oven tiles. Kiln bricks.
10-in. paving tilcs. Fire bricks.
Foot ditto. Paving bricks.
Plain tiles. Circulars (for setting c01)pcrs,&c.)
Pantiles. Column bricks (for forming co-
Ridge tiles. lumns).
Hip tiles. Chimney-pots.
Drain tiles. Garden-pots.
Drain pipes.

 

And anything required 20 order.

For all these articles (excepting ﬁre bricks) the same
clay is employed (mixed, for the making of paving tiles,
oven tilesﬁ< kiln bricks, paving bricks, circular bricks,
and column bricks, with a certain quantity of loam),
and they are all burnt in the same kiln, the ﬁre bricks
included 3 but each different article presents somepecu-
liarity in the processes intervening between the tem-
pering and the burning, having its separate moulding-

* For oven tiles the stuﬁ' must be of superior quality.

ART OF MAKING BRICKS AND TILES. 169

szq. 1°

    
  

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stool, frames, strike, 850., and being stacked and dried
differently. The details of these differences, however
(even would our limits allow us to describe them), would
scarcely be suited to the pages of a rudimentary work
intended for popular reading.

I

170 RUDIMEN’I3 OF THE

Figs. 2 and 3.

 

BUILDINGS AND PLANT.

3. Pug-mill.——The pug-mill used in tile making for
pugging, or, as it is termed, grinding the clay, diﬁ‘ers
considerably from that used in brick-making. The tub,
instead of being conical, is made to taper at both ends:-

ART OF MAKING BRICKS AND TILES. 171

Ey. 5.

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the ejectment hole is at the bottom instead of in

front, as in the brick pug-mill.

he knives, also, are made in a superior manner.
1 2

172 RUDIMENTS OF THE

 

 

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The mill is provided with force knives without cross
knives at top and bottom. See ﬁgures 1, 2, and 3.

The pug-mill is placed under cover in a shed [called
the grinding shed.

ART on MAKING BRICKS AND TILES. 173

 

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4. The Sling, ﬁg. 4, is simply a piece of thin wire
with two handles, used for cutting the clay.

5. Moulding Sized—Tiles are made under cover in
sheds about 7 yards wide, the length of the shed de-
pending on the number of moulding tables, the area
allotted to each table being about 7 yards in length by
4 yards in breadth.

The moulding tables are placed against one side of

1’74. RUDIMENTS OF THE

 

 

 

 

the shed, and the remainder of the area is occupied by
the blocks or drying-shelves 3 every shelf being formed
with three 1 in. planks placed edge to edge, and sepa-
rated from each other by bricks placed edgewise at the
end of the planks, as well as at intermediate points,
each block containing about 14 shelves, and thus
measuring 12 ft. long by 2 ft. 8 in. wide, and about 7 ft.
high. A passage way, 3 ft. wide, is left round the
blocks, to give free access to every part of them. ‘
These details will be understood by reference to ﬁg. 5.
6. The Pantile Table, or moulding table, is shown in

ART OF MAKING BRICKS AND TILES. 175

Fzy. ll. .

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Fly. 15.
ﬁnI‘ .! 2F?
ﬁg. 6. It is furnished with a tray or trough, in which
'the moulder dips his hands when moulding, and with
. a block and stock-board, on which the tile mould is
' placed in the operation of moulding.

7. The Block and Stock-board is shown in ﬁg. 7.
The two form one piece, which rests on the moulding
' table, and is ﬁrmly keyed to it by means of a. tenon on

176 RUDIMENTS OF THE

 

 

 

the under side of the block passing through a mortice in
the table. Four pegs, driven into the table at the corners
of the block and stock-board, serve as a support for the
mould and regulate the thickness of the tile, g in. being
the thickness of a. pantile.

ART'OF MAKING BRICKS AND TILES. 177'

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8. The Tile Mould is shown in ﬁg. 8, and requires no
particular description.

9. The Ball, ﬁg. 9, is merely a round roller of a
particular size, as shown by the scale, and is used for
striking a smooth surface to the tile.

10. The Washing-0f Table, ﬁg. 10, is a stand With

I 3

178 RUDIMENTS OF THE

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179

ART OF MAKING BRICKS AND TILES.

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ART OF MAKING BRICKS AND TILES.

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ART or MAKING BRICKS AND TILES. 183

which the tile, when half dry, is thwaclced or beaten
with a thwacker (ﬁg. 15), to correct any warping which
may have taken place whilst drying in the block.

When thwacking those tiles taken from the bottom
of the block, the thwacking frame is placed upon the
Thwaclcing Stool, ﬁg. 13 3 but when the tiles to bc
thwacked are at the top of the block, the thwacking
frame is placed upon the T/iwaeking Horse, ﬁg. 14,
which brings it conveniently to their level.

The T/iwaclcing Knife, ﬁg. 16, is used for trimming
the wing of the pantile immediately after thwacking.

13. The Tile Kiln, figs. 17, 18, 19, 20, 21, and 22,
consists of a kiln with arched furnaces, enclosed in a
conical building called a dome. The arrangement of
the whole building will be clearly understood by refer-
ence to the ﬁgures, and to the detailed description at
the end of this chapter.

PROCESS OF MANUFACTURE .

14. Clay-getting and Weathering—The clay used for
making tiles is purer and stronger than that used for
making bricks, and consequently requires more care in
its treatment.

When the clay is too strong, it is mixed with sand
before passing it through the pug-mill, but this is not
often required.

The weathering of the clay is performed by spreading
it out in thin layers, about 2 in. thick, during the winter,
and each layer is allowed to receive the beneﬁt of at
least one night’s frost before the succeeding layer is
placed over it. Sometimes the clay is spread out in
the summer to be scorched by the sun, which effects
the weathering equally well. The greater the heat, or

184 RUDIMENTS or THE

the sharper the frost, the thicker may be the layers, but
4: in. is the maximum thickness.

The object of the process of weathering is, to open
the pores of the clay, and to separate the particles, that
it may absorb water more readily in the subsequent
process of mellowing.

The clay thus weathered is thrown into pits, where it
is covered with water, and left for a considerable time
to mellow, or ripen.

15. Tempering.-—The process of tempering is per-
formed simply by passing the clay through the pug-mill.
If the clay be very foul, that is, full of stones, it is slung
before using, and passed a second time through the mill.
For chimney-pots and similar articles, the clay is slung
either once or twice, and pugged, or, as it is called,
ground, twice or thrice, according to the nature of the
clay, and the purpose to which it is to be applied.

16. Slinging.—The operation of slinging is as fol-
lows: as the clay issues from the ejectment hole of the
pug-mill, it is cut into lengths of about 2 ft., with a
sling. These lumps are taken by the slingers and cut
up into slices, not exceeding =2; in. in thickness, during
which operation most of the stones fall out, and those
which remain are picked out by hand. The clay thus
freed from stones is once more ground, and is then
ready for the moulder.

(NB. In some parts of England the clay is freed
from stones by sifting, and the tempering is performed
by treading 3 this part of the work being done by boys,
who tread in a spiral track, so as to subject each portion
of the mass to a uniform amount of kneading.)

17. Moulding.——The clay, as it issues from the mill,
is cut into lumps, called pieces, which are stacked on a
rough bench in the grinding shed. A labourer cuts

ART OF MAKING BRICKS AND TILES. 185

these lumps in half, each half being called a hay-piece,
and wheels these half-pieces one by one to the pantile
table.

A rough-moulder, generally a\boy, takes the half-
piece and squares it up, that is, beats it up into a slab
near the shape of the mould, and about 4 in. thick, from
which he cuts off a thin slice, the size of a tile, and
passes it to the moulder.

The moulder, having sanded his stock-board, and
placed his mould on the four pegs which regulate the
thickness of the tile, takes the slice of clay from the
rough-moulder, and puts it into the mould. He then,
with very wet hands, smooths the surface, cutting off
the superﬂuous clay with his hands, in long pieces, called
strippings, which are thrown to a corner of the table.
This done, he strikes the surface level with the roll 3 and
turning the tile out of the mould on the washing-off
frame, with very wet hands washes it into a curved
shape. He then strikes it smartly with the splayer, and
turns it over on that implement, on which he conveys it
to the block, where he deposits the tile with the convex
side uppermost, and, the splayer being withdrawn, the
tile is left to dry. The button end of the tile is placed
inside the block.

18. Thwaclcz'ng.——The tiles remain in the block until
they are half dry, when they are taken out one by one,
placed on the thwacking frame, and beaten with the
thwacker to perfect their shape.

The wing of each tile is then trimmed with the
thwacking knife, and the tiles replaced in the block, still
with the convex side uppermost; but this time the button
end is placed outside. The tiles then remain in the
block until ready for kilning.

It should be observed that the tiles ﬂatten slightly

186 RUDIMENTS or THE

whilst in the block, and for this reason the washing-off
frame is made a little more convex than the thwacking
frame, which corresponds to the permanent form of the
tile.

19. Kilning.—In setting the kiln, a course of vitriﬁed
bricks is laid at the bottom, herring-bone fashion, the
bricks being placed 1% in. apart. On this foundation
the tiles are stacked as closely as they will lie, in an
upright position, one course above another. As the
body of the kiln is ﬁlled, the hatchways are bricked up
with old bricks, and when the kiln is topped, they are
plastered over with loam or clay. The top is then
covered with one course of unburnt tiles, placed ﬂat, and
lastly, upon these a course of old pantiles is loosely
laid.

The ﬁres are lighted on Monday morning, and are
not put out until Saturday evening, whatever the articles
in the kiln.

The fuel used is coal, and the quantity consumed at
each burning about eight tons. This, however, varies
with the kind of articles to be burnt,—hollow goods, as
chimney-pots, garden-pots, &c., requiring less than more
solid articles. Foot tiles, oven ditto, and lO-in. ditto,
are stacked in the kiln the same way as paving bricks.
The covering on the top of the kiln varies in thickness,
according to the sort of goods to be ﬁred.

COST OF MANUFACTURE.

20. From the manufacture of tiles being carried on
under cover, the establishment of a large tile-work
involves a considerable amount of capital. The kiln
used in London is very costly, such a one as we have

ART OF MAKING BRICKS AND TILES. 187

shown in ﬁgs. 17 to 22 costing in its erection no less

than £2, 000.
The cost of making pantiles by machinery 1s about

as follows, per 1,000:—

.£ 8. d
Clay—this is usually included in the rent, but, if pur-
chased s1'0pa1atcly, may be taken at 23. 6d. per yard
cube-—21 zyards cube make 1 ,000 .pantiles . 0 5 7 {,1
Weathering clay . . . 0 5 0
Mellowing ditto, and g1inding once . . 0 2 0
Add for ho1sing the pug-mill . "7‘ . . . 0 1 6
If slung and ground a second time. add. 0 2 0
Moulding,1nclud1n0‘ all labou1 in fetching clay ﬁom mill,
moulding, washing, blocking, thwacking, and blocking
second time . . . . . . 0 10 0
Setting and drawing kilri . 0 3 0
Burning . 0 12 6
Cost of making . 2 1 7%,—
Rent, repai1s, breakage, contingencies, and p1oﬁt 1 8 43’;
Selling price per 1,000 3 10 0

21. The following are the ordinary prices, in 1892,
for a variety of articles, which will give an idea of the
comparative amount of labour bestowed upon them :—

' £ 8. cl.

Plain tiles . . . . . per 1,000 2 5 0
Patent tiles . . ,, 3 6 0
Pan, hip, 01 1idge tiles . ,, 2 7 0
O1namental plain tiles . . . ,, 2 17 0
Paving tiles, 6 in. . . ,, 4 0 0
,, 9 ,, . . ,, 11 0 0

,, 12 ,, . . ,, 1710 0
Mathematical tiles, red . . . ,, 3 0 0
,, white . . ,, 3 10 0

Oven tiles . . . . . each 0 0 9

22. The above sketch of the manufacture of pantiles
will give the reader a general idea of the processes used
in tile-making, but every article presents some pecu-
liarity of manufacture. Plain tiles are dried on ﬂats,
called Place Grounds. Hip and ridge tiles are washed

188 RUDIMENTS OF THE

and thwacked in a similar manner to pantiles. Drain
tiles are only washed. Paving tiles and oven tiles are
stricken with a ﬂat strike instead of the roll, and are
not washed, but they are thwacked and dressed with a
knife.

23. Description of Illustrations.

Figs. 1, 2, and 3. The pug-mill.

The pug- mill used in tile-making is diiTerent from that used in brick-
making, as will readily be seen from the ﬁgures.

Fig. 1. Elevation of pug-mill. (Scale :1; in. to the foot.)

Fig. 2. Details of the knives. (Scale % in. to the foot.)

These knives are made in a superior manner to those of the brick
pug-mills, both as regards strength and ﬁtting. The mill is provided
with force knives at top and bottom, which have no cross knives
attached to them.

Fig. 3. Cross section of the tub. (Scale % in. to the foot.)

(I. The cjectment hole, which is at the bottom of the tub, and not
at the side, as in the brick pug-mill.

Fig. 4. The sling, or wire knife, used for cutting the clay into lengths
as it issues from the pug-mill. and also for freeing the clay from stones
(slinging).

Fig. 5. The tile shed, shown in plan and section. (Scale 10 ft. to the
inch.

a.a.a. The blocks, which consist of a series of shelves, on which the
tiles are placed to dry. Each shelf is formed of three 11-inch
planks. The shelves are 45 in. apart, and are spaced off from each
other by bricks laid cdgewise, at the end of the block, and also
midway between these points.

5.5.6. The moulding tables.

Fig. 6. The pantile table, used for moulding pantiles. (Scale gin. to
the foot.)

a. The half-piece squared up.

6. The block and stock-board.

c. The trug or trough.

d. The moulder’s sand.

e. The strippings.

f. A hole in the table for sweepings to drop through.

g.g._7. The pegs on which the mould is placed. There are four of
these pegs ; viz., one at each corner of the block and stock-board ;
and the distance to which they are driven below the top of the
stock-board, determines the thickness of the tile; '

Fig. 7. The block and stock-board. (Scale 1 in. to the foot.)

0. A tenon, which drops into a mortice in the table.

of. A mortice in c, by which the block and stock-hoard is keyed

tightly to the table.

Fig. 8. The pantile mould. (Scale 1 in. to the foot.)

Fig. 9. The roll. (Scale 1 in. to the foot.)

ART OF MAKING BRICKS AND TILES. 189‘

Fig. 10. The washing-off table. (Scale éin. to the foot.)
(1. The washing-off trug.
b. The washing-off frame.

Fig. 11. The washing-off frame. (Scale 1 in. to the foot.)

Fig. 12. The splayer. (Scale 1 in. to the foot.) t

Fig. 13. The thwaeking frame placed on the thwacking stool. (Scale
I in. to the foot.)

Fig. 14. The thwacking horse, on which the thwaeking frame is placed
for thwacking those tiles at the top of the blocks. (Scale 2} in. to the foot.)

a. The table on which the thwacking frame is placed.

0. The place where the thwaeker stands to thwack.

c.c. Two wheels to facilitate the moving of the horse from place to
place when required.

Fig. 15. The thwaeker. (Scale 1 in. to the foot.)

Fig. 16. The thwaeking knife. (Scale 1 in. to the foot.) This is
simply an iron blade, with a piece cut out exactly to the intended proﬁle
of the wing of the pantile, which is trimmed with it immediately after
thwaeking.

Figs. 17 to 22. The tile kiln.
(NB. The whole of the furnace and body of the kiln is constructed
of ﬁre brick.)

Fig. 17. Plan of the kiln, taken through the body. (Scale 20 feet to

the inch.)
lsz. The hatehways.

Fig. 18. Plan of the basement, to the same scale, showing the entrance
to the vaults.

Fig. 193* Section through the centre of the kiln, in the direction of
the line a 6, ﬁg. 18. (Same scale.)

Fig. 20. Section through the centre of the kiln, in the direction of the
line a 03. (Same scale.)

Fig. 21. Transverse section of the furnaces. (Scale 9; in. to the foot.)
The section marked a is taken through the throat of the furnace, on the
line marked x y, in ﬁg. 22.

Fig. 22. Longitudinal section of the furnaces. (Same scale.) The
arrows in each of the above ﬁgures show the direction of the ﬁnes.

 

CHAPTER VII.
ON THE MANUFACTURE OF ENCAUSTIC TILES.

1. The highly-decorative pavements of the mediaeval
ages, principally to be found in our old ecclesiastical
structures, which often shared the fate of many beautiful

i * This cut and the following are not quite accurate, the sides of thr
dome not being straight, as shown in the engraving, but slightly convex.

190 RUDIMENTS or THE

details of architectural ornament, by being made to give .1
way to what rustic churchwardens, and others of equal
taste and discernment, deemed improvements—after ‘
attracting the attention of the antiquary for centuries,
have at length excited some interest amongst the prac-
tical minds of these our stirring business times. About :
thirty years since a patent was obtained by Mr. S.
Wright, of the Staffordshire Potteries, for the revival of ‘
this interesting branch of art, for such it may be truly
called. As might have been expected, many difﬁculties
beset the patentee, and for some years nothing was pro—
duced equal to the old specimens. But still a beginning
was made that promised success when skill and capital,
and a determination to succeed, should be brought to
bear upon the subject. And these were not long want-
ing, as the patent ultimately passed into the hands of a
gentleman undeterred by difﬁculties or previous failures,
and who expressed his intention to make encaustic tiles,
such as would secure the public approbation, even if
each one cost him a guinea! This is the spirit that has
achieved such surprising results in our manufactures
generally, within a comparatively brief period ; and no
wonder that in this, as in most other instances, success
has been the satisfactory result. We need scarcely say
that the gentleman referred to is Mr. Herbert Minton,
who, with untiring industry, collected the best speci-
mens of old tiles that could be found in this country, and
by a succession of experiments overcame the obstacles
that had retarded the success of the undertaking. '

2. The chief of these obstacles was, to discover clays
of different colours that could be made to amalgamate
in such a way as to contract or shrink equally during the
processes of drying and ﬁring; and until this was effected,
a perfect tile of several colours could not be produced,

ART or MAKlNG BRICKS AND TILES. 191

sundry unsightly cracks appearing on the inlaid parts
of the surface. It will be unnecessary to speak of the
present state of perfection to which these beautiful tiles
have been brought, further than to obse1ve that they
are yearly becoming mo1e appreciated, both on the score
of durability and ornament; and there can scarcely be a
doubt that, very soon, no ecclesiastical building, having
any pretensions to architectural superiority, will be con-
sidered to be complete in its decorations without them.
By way of information, we may add, that not only
copies of old tiles are manufactured, but every variety
of design suitable for the character of the building they
are intended for are supplied. Indeed, almost any
pattern can be produced with facility 5 and we have seen
some of the arms of our nobility and gentry so ﬁnely
executed, that the uninitiated might be pardoned for
mistaking these inlaid clays for the highly-ﬁnished and
elaborate work of the pencil. In many instances they
have been adopted as a substitute for oil-cloth in the
halls and passages of the mansions of our nobility,
being considered far more beautiful, and, from their
durability, more economical also, in the long run.

3. We will now take a peep into the interior of Messrs.
Minton and Co.’s manufactory.* We must ﬁrst notice,
that the clays of which the tiles are composed are ob-
tained in the immediate neighbourhood—the ordinary
marl producing a good buff colour when ﬁred ; another
kind a warm red ; black is produced by staining with
manganese; blue with cobalt, Ste. W'th the native
clays there is a slight admixture of Cornwall stone and
clay, and ﬂint from Kent, &c. The whole are subjected
to a variety of washings and puriﬁcations—-—the clay in-

"" Further details will be found in “Tomlinson’s Cyclcpzcdia”—
1 article, Pottery and Porcelain.

192 RUDIMENTS or THE

tended for the surface, especially—and passed through
ﬁne lawn sieves in a liquid, or “slip” state, as it is
technically termed. In this state it is conveyed to the
slip-kiln, or rather pumped on it, and boiled, until it is
in a plastic state, and ﬁt for use.

4. After the modeller has done his part, the pattern
is cast in plaster in relief, and is then placed in a metal
frame of the size required ; but it should be stated that
to produce the ordinary 6-in. square tile, it is modelled
6-3; in., to allow for shrinkage or contraction, which takes
place during drying and ﬁring. The maker then com-
mences his operations. A piece of the ﬁne clay for the
surface is flattened out to about a quarter of an inch
thick, somewhat after the manner of preparing a pie
crust, and this is thrown upon, and pressed upon, the
plaster pattern, and receives, of course, a correct indenta-
tion, or outline of the design. The metal frame containing
the plaster mould is divided horizontally, and after the
surface is put in, the upper part of the frame is screwed
on, and the maker ﬁlls up with clay of a somewhat
coarser description, to form the tile of the requisite
thickness. The tile is then put under a screw-press to
impart the proper degree of solidity.

5. As far as we have gone, the tile is but of one
colour 3 next comes the task of giving the different
colours required. Suppose a tile be required of three
colours—red, blue, and buff. We will say the surface
piece already put in is of abuff colour. The maker provides
himself with vessels of a suitable kind, containing—the
one the blue, the other the red colour, in a “ slip” state,
and these he pours into those parts of the indented surface
that the drawing or ﬁnished tile before him tells him to
be correct. These slips cover the surface entirely, and
there is now not the slightest appearance of any pattern

xnr or MAKING BBchs axn TILES. l93

or design. After remaining in this state for three days,
until the water has evaporated for the most part, the
process of scraping or planing the\surface commences,
which is an operation requiring care, though easily
eﬂ'ected by experienced hands. The pattern then makes
its appearance, but the coloms are scarcely distinguish-
able the one from the other.

6. The tile is then ﬁnished as far as the maker is
concerned; and, after remaining in the drying house
from 14 to 21 days, according to circumstances, is con-
veyed to the oven, where it is exposed to an intense
degree of heat for about 60 hours. After being drawn
from the oven, the tile is ﬁnished, except it be that the
parties ordering wish the surface glazed, a rapid and
easy process, the dipper merely placing the surface in a
tub of glaze.

'4'". Plain self-coloured tiles, such as black, red, choco-
late, buff, &c., and also tesserae, are made of the same
material as the encaustic, only that it is dried longer in
the kiln, passed through rollers to reduce it to a powder,
and is then ﬁnely sifted. Presses of great power, made
under Prosser’ s patent, make these tiles. The powdered
clay is swept into a recess of the pr0per size, the screw
descends, and, by its immense power, presses the powder
into a solid tile, ready for drying and ﬁring. One man
can, with ease, make about 500 per day.

8. Tamera—The tesserae made by Messrs. Minton,
under Mr. Prosser’s patent, are now extensively used
for mosaic pavements, for which they are admirably
adapted. A few words will sufﬁce to explain the nature
of the improvements effected in this branch of art by
the introduction of the new material.

The mosaic pavements made by the Romans were
fanned of small pieces of stone or marble of various

K

194: RUDIMENTS on THE

colours, bedded one by one in a layer of cement, each
of the pieces being levelled with the others as the work
proceeded, and on the completion of the work the un-
avoidable inequalities of surface were corrected by
rubbing the whole to a plane surface.

This mode of proceeding was attended with many
defects. The irregular shapes of the tesserae caused
the cement joints to be of a thickness that greatly in-
jured the effect of the design, whilst the piecemeal way
in which the work was laid rendered it very difﬁcult to
produce a level surface.

It is not our purpose here to detail the several at-
tempts that have been made during the last few years,
with various degrees of success, to produce mosaic pave-
ments, by the use of clay tesserae, coloured cements,
&c. 3 but it will readily be understood that the principal
difﬁculties to be overcome in the use of solid tesserge
are those arising from irregularity in the shape and siie
of the several pieces, as well as the great labour and
expense attending the laying of such pavements piece
by piece.

These diﬂiculties have been entirely overcome by the
use of the patent tesserae, which, being made in steel
dies, by the process above described, are perfectly uni-
form in size, and ﬁt closely together, with an almost
imperceptible joint.

The mode in which the tesserae are used is precisely
the reverse of the Roman process, and is as follows :—
a coloured design of the intended mosaic having been
drawn to scale, after the fashion of a Berlin wool
pattern, the pattern is set out full size on a cement ﬁoOr,
perfectly smooth and level, and on this ﬂoor the tesserw
are placed close together, the workmen being guided in
the arrangement of the colours by the small drawing. if?

ART or MAKING BRICKS AND TILES. 195

The pieces are then joined together by a layer of
cement applied to the upper surface, and in this way they
are formed into slabs of convenient size, which, when
hard, are ready for use, and can be laid with as much
ease as ordinary ﬂagstones. It will at once be under-
stood, that the side of the slabs which is next the ﬂoor
during the process of manufacture forms the upper
side of the ﬁnished pavement, the pattern appearing
reversed during its formation.

 

CHAPTER VIII.

ON THE MANUFACTURE OF BRICKS AND DRAIN
PIPES BY MACHINERY.

IT is the general opinion that brickmaking by ma‘
chinery is not economical in small work, since the cost
of moulding bears so small a proportion to the total
cost. In large engineering works, however, where a
contractor requires many millions of bricks in a limited
time, for the construction of a tunnel or viaduct, the use
of machinery may be desirable. In this chapter we do
not, of course, pretend to give descriptions of the various
patented and other machines connected with the manu-
facture of bricks and tiles. Our object, in a work of
this kind, being to deal with the principles of the art
rather than with a multiplicity of minute details. We
may, however, in order to show the great vitality of the
trade, quote a few titles of inventions, 850., belonging to
the years 1861 and 1862. The patent list displays the
strong tendency to invention for making bricks, &c., by
machinery. Thus, we have——
K 2

196 RUDIMENTS or THE

Wimball’s patent for making bricks, tiles, and drain
pipes.

Morrell and Charnley’s apparatus for making bricks,
tiles, and other articles from plastic materials.

Green and Wright’s machinery for the manufacture
of plain and ornamental bricks, slabs, tiles, and quarries.

Basford’s patent for constructing brick walls, and
ornamenting the materials to be used for the same.

Effertz’ machinery for making bricks, tiles, &c.

Grimshaw’s patent for compressing brick-earth and
other materials.

Morris and Radford’s patent for the manufacture of
ﬁre bricks, blocks, &c.

Poole’s patent for making ornamental bricks, tiles, &c.

Newton’s machine for making bricks.

Sharp and Balmer’s apparatus for the manufacture
and drying of bricks.

Grimshaw’s patent apparatus, used in drying,.pul-.
verising, and compressing clay.

Platt and Richardson’ s apparatus for making bricks.

Foster’s method of rendering bricks impervious to
damp.

Smith’s patent apparatus for the manufacture of
bricks, tiles, &c.

The following description of Oates’s brickmaking
machine is from Tomlinson’s “Cyclopaedia of Useful
Arts, &c.” It was described by Mr. J. E. Clift, of
Birmingham, at a meeting of the Institution of Me-
chanical Engineers, in November, 1859, and the descrip-
tion is printed in the “ Proceedings” of that body, and
is illustrated by four engraved plates, from which Mr.
Tomlinson has compiled the illustrative ﬁgure. We do
not give this machine as the best, since there are many
other well-known machines of merit in use 3 but we

ART or MAKING BRICKS AND TILES. 19?

offer it as an example of the mechanical means adopted
in this class of inventions.

The present brickmaking machines at work are
divided by Mr. Clift into two classes, viz., those that
operate on the clay in a moist and plastic state, and
those for which the material requires to be dried and
ground previous to being moulded. In the former class,
the plastic column of clay, having been formed into a
continuous length by the operation of a screw, pugging
blades, or rollers, is divided into bricks by means of
wires moved across, either while the clay is at rest or
while in motion, by the wires being moved obliquely at
an angle to compensate for the speed at which the clay
travels. This wire-cutting requires the clay to be soft,
so that the bricks are but little harder than those made
by hand, and require a similar drying before being placed
in the kiln 3 and all this renders the expense of manu-
facture about the same as for hand-made bricks. In the
second class of machines, the bricks are compressed in
a dry state in the mould ; but the processes for drying
the clay, and reducing it to a uniform powder, add to
the cOst of manufacture.

Mr. Oates has got rid of both objections, viz., the
difﬁculty respecting the previous preparation of the clay,
and the subsequent drying of the bricks. In his machine
the clay is used of such a degree of dryness as to allow
of its being mixed up and macerated, and compressed
into bricks by a single continuous action, the clay being
formed into a continuous column and compressed into
the moulds by the action of a revolving vertical screw.
The clay requires, in general, no previous preparation
beyond that given by the ordinary crushing rollers, and,
in some cases, may be put into the machine direct from
the pit, unless it contain stones, when it is passed through

198 RUDIMENTS or THE

a pair of rollers. Figs. 2 and 3, When joined at the
parts indicated by the dotted lines, form a longitudinal
section of the machine, and ﬁg. 1 is a plan of the screw.

Fig. l.

 

 

 

 

3

3 ,_ __

The cast-iron clay cylinder A is expanded at the upper
part to form a hopper, into Which the clay is supplied,
and the lower cylindrical portion is about the same in

ART OF MAKING BRICKS AND TILES. 199

Fay. 3.

 

diameter as the length of the brick mould F, at the
bottom of the pressing chamber B. The vertical screw
C is placed in the axis of the cylinder, and carried by

2-00 RUDIMENTS OF THE

two bearings in the upper frame D ; this screw is
parallel at the lower part, the blade nearly ﬁlling the
parallel portion of the clay cylinder, and is tapered
conically at the upper part to nearly double the diameter.
When the clay is thrown loosely into the hopper it is
divided and directed towards the centre by the curved
arm E revolving with the screw shaft, and drawn down
by the tapered portion of the screw into the parallel
part of the clay cylinder in sufﬁcient quantity to keep
this part of the cylinder constantly charged. The clay
is then forced downwards by the parallel portion of the
screw into the pressing chamber B, and into the brick
mould F, which consists of a parallel block equal in
thickness to a brick, and sliding between ﬁxed plates
above and below, and containing two moulds, F and G,
corresponding in length and breadth to the bricks to be
made. The mould-block F is made to slide with a reci-
procating motion by means of the revolvirg cam H,
which acts upon two rollers in the frame I, connected
to the mould-block by a rod sliding through ﬁxed eyes;
and the two brick moulds are thus placed alternately
under the opening of the pressing chamber B to receive
a charge of clay, the mould-block remaining stationary
in each position during one quarter of the revolution of
the cam H. When the brick mould F is Withdrawn
from under the pressing chamber, the brick is dis-
charged from the mould by the descent of the piston K,
which is of the same dimensions as the brick mould;
the piston is pressed down by the lever M, worked by
the cam N, when the brick mould stops at the end of
its stroke, and is drawn up again before the return
motion of the mould begins. A second piston L acts in
the same manner upon the second brick mould G, and
the discharged bricks are received upon endless bands

ART or MAKING BRICKS AND TILES. 201

O, by which they are brought successively to the front
of the machine, when they are removed by boys to the
barrows used for conveying them to the kilns to be burnt.

The solid block that divides the two brick moulds
F and G is slightly wider than the discharge opening
at the bottom of the pressing chamber B, having an
over-lap, so that the making of one brick is terminated.
before that of the next begins, in order to ensure com-
pleteness in the moulding. During the instant when
this plank is passing the opening at the bottom of the
pressing chamber, the discharge of the clay is st0pped,
and it becomes necessary to provide some means CithC]
of relieving the pressure during that period, or of stop-
ping the motion of the pressing screw. Accordingly
the pressure is relieved by an ingenious contrivance,
forming in effect a safety-valve, which prevents the
pressure in the chamber from increasing when the brick
mould is shut oﬁ“, and also serves to maintain a uniform
pressure during the formation of the brick, so as to en-
sure each mould being thoroughly and equally ﬁlled
with clay; this is effected by an escape-pipe P, similar
in form to the brick mould, but extending horizontally
from the side of the pressing chamber, and is open. at
the outer extremity. The regular action of the screwr
forces the clay into the escape-pipe, as far as its outer
extremity, forming a parallel bar of clay in the pipe.
The resistance caused by the friction of this bar in
sliding through the pipe is then the measure of the
amount of pressure in the machine 3 and this pressure
cannot be exceeded in the machine, for the instant that
the brick mould is full, the further supply of clay, fed
into the pressing chamber by the continuous motion of
the screw, escapes laterally, by pushing outwards the
column of clay in the escape-pipe. The uniform pres-

K 3 '

202 RUDIMENTS OF THE

sure of every brick in the mould up to this ﬁxed limit
is ensured by the escape-pipe not beginning to act until
that limit of pressure is reached. Its action is similar
to that of a safety-valve, and the amount of pressure
under which the bricks are made is directly regulated
by adjusting the length of the escape-pipe. The latter
discharges a continuous bar of solid clay, advancing by
intermittent steps of 41- to 1]; in. in length, each time
that the brick mould is shut off and changed. The
projecting piece of clay from the end of the escape-pipe
is broken off from time to time, and thrown back into
the hopper of the machine. '

The upper side of the solid block separating the two
moulds F and G is faced with steel: and the upper
face of the brick is smoothed by being sheared oﬁ' by
the edge of the opening in the pressing chamber; the
under face of the brick is smoothed by being planed by
a steel bar R, ﬁxed along the edge of the under plate,
and having a groove in it for discharging the shaving
of clay taken off the brick.

The screw shaft is driven by bevil gear from the shaft
S, which is driven by a strap from the engine, the speed
being adjusted according to the quality of the clay or
the wear of the screw. The screw is driven at about
thirty revolutions per minute, when at full speed, or one
brick for each revolution of the screw. The machine
completes 12,000 bricks per day, or an average of
twenty per minute. The clay, as already stated, can
be taken direct from the pit, passed through crushing
rollers, and then fed straight into the moulding machine.
Indeed, the clay within a quarter of an hour after being
brought from the pit may be seen stacked in kilns, and
in a few days burnt ready for use. The amount of
power required for driving the machine, and the wear

ART or MAKING BRICKS AND TILES. 203

of the screw, vary according to the material worked.
With a calcareous marl about twelve horse-power was
found sufﬁcient. When the material is very siliceous
the cast-iron screws wear out quickly. Gun-metal has
been found much more durable than iron for the screw
and mould- block.

In burning bricks that contain much alumina, and
consequently retain a good deal of moisture, it is found
advisable to stack the bricks in the kiln in lifts of from
ﬁfteen to twenty courses each. As soon as the bottom.
lift has been stacked, small ﬁres are lighted to drive oﬁ
the steam from the bricks, which might otherwise soften
those stacked above; the middle lift is then stacked and
similarly dried, and then the top lift; after which the
full ﬁres are lighted.

The crushing strength of these bricks made in the
machines at Oldbury is said to be double that of the
hand-made blue bricks of the neighbourhood, being an
average of 150 tons compared with ’7 6 tons, or 8,024 lbs.
per square inch compared with 4,203 lbs. The trans-
verse strength, with 7 in. length between the bearings,
was found to be, for hand-made bricks, 2,350 lbs.,
for machine-made bricks, 3,085 lbs., and for the same,
hard burnt, 4,320 lbs.

One of the advantages of this machine is, that clay
containing a good deal of stone, which could scarcely
be worked for hand-made bricks, can be used. Th1;
brick-earth at Cobham is very unfavourable for brick-
making, it being so weak and friable that hand—made
bricks made from it were crushed by a moderate pres-
sure; when made by the machine, however, serv'meable
bricks were turned out. A material containing 84 per
cent. of silica has been made by this machine into
bricks. The bricks had not any hollow or frog in the

20$ RUDIMENTS on THE

upper space for holding the mortar, but arrangements
were being made for producing it.

The extent to which bricks absorb water is im-
portant, since dry houses cannot be built with bricks
that are very absorbent. A brick of 9 lbs. weight will
absorb about ] lb. of water, and it is stated that the
bricks made by this machine absorb less.

The cost of Oates’s machine is from £150 to £200,
exclusive of the engine for driving it. The cost of brick-
making varies according to the price of coal in different
localities 3 but there is very little variation in the price
of the unburnt bricks made by the machine, the diﬁer-
ence arising chieﬂy from the varying amount of royalty
charged on the clay in the pit, which varies from ls.
to 28. 6d. per 1,000. A machine at Cobham, employed
by Messrs. Peto and Betts, produced 200,000 bricks in
a fortnight of eleven days, but the average number per
W ‘ , of ﬁve and a half days, was considered to be
80,000, or at the rate of twenty-four bricks per minute.
The contract for the bricks in and out of the kilns,
exclusive of the cost of the coals, was ﬁrst taken at
5s. 9d. per 1,000 bricks 5 which was afterwards raised
to 68. 9d., owing to the distance of the clay from the
machine. To this had to be added 6d. per 1,000 royalty,
and the wages of the engine-driver at 6d. per 1,000,
raising the expenses to 73. 9d. per 1,000 bricks. The
quantity of coals required for burning the bricks, and
for the engine driving, might safely be taken at @- ton
per 1,000; and the price of coal at that place being 258.
per ton, the total cost of making the bricks by the ma-
chine amounted to 203. per 1,000, including the burning.

The following particulars respecting drain-pipe mak-
ing machines ,. and hollow bricks, are also from 'MI.
Tomlinson’s “ Cyclopaedia.” ‘

ART or MAKING BRICKS AND TILES. 205

The large and increasing demand for draining tiles
and pipes has led to great economy in their manufac-
ture. Some are moulded ﬂat, and afterwards bent
round a wooden core to the
proper shape: others are made at
once of a curved form by forcing\
the clay through a dad or mould,
ﬁg. 4, by mechanical pressure.
The action will be readily under- ’32;
stood from ﬁg. 5, which repre-- _. "1W"
sents a section of a strong iron {Hutu W“;

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cylinder, containing a quantity of ”3‘” A“
clay in the act of being pressed \
down with enormous force by a
solid piston or plunger. The
clay, as it escapes through the
dod, is evidently moulded into
the form of the pipe (also shown
in section), which is cut off in

lengths, by means of a wire, and will
these, after a preliminary drying, F 1'9- 5-

are ready for ﬁring. By using dods of different sizes,
pipes of various magnitudes are formed.

Fig. 6 is an elevation of a drain-pipe making
machine, which we have copied from Mr. Green’s works
at Lambeth. The cylinder contains a second cylinder,
capable of holding a given weight of clay, adapted to .
the moulding of a certain number of pipes at one
charge. Thus, one box-full will furnish ﬁve 9-in. pipes,
six 6-in. pipes, seven 4-in. pipes, and so on. By the
action of the rack the piston forces the clay through
the dod or die upon a table, so balanced by weights
that the lengthening pipe is sufﬁcient by its weight to
force down the table, and when a certain length of pipe

 

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206 RUDIMENTS OF THE

is formed, the boy stops the machine by shifting the
strap which drives the rack-screw from the fast to the
loose pulley, and then cuts off the length of pipe with

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a Wire, removes the pipe so formed, raises up the table,
sets the machine in action, and receives a pipe upon the

ART or MAKING BRICKS AND TILES. 207

table as before. When all the clay is thus forced out
of the cylinder, the action of the rack is reversed,
whereby the plunger is drawn up out of the cylinder.
The cylinder, which moves on a\kind of hinge, is then
tilted on one side to receive its charge of clay, and being
restored to its vertical position, the action proceeds as
before. By an ingenious contrivancc, the fork which
shifts the strap from the fast to the loose pulley, is
weighted in such a manner that, when the boy raises
his foot from a treadle, the strap is at once moved on
to the loose pulley, and vice rend, thus giving the
attendant a thild hand, and diminishing the chances of
danger from the strap. Mi. G1 een has a machine
worked by a screw, in which the process is continuous.
These pipes are washed with glaze before the ﬁring, as
will he explained hereafter.

by means of a tile machine, the hollow bricks are
formed, which are so much recommended by the “ So-
ciety for Improving the Condition of the Labouring
Classes,” and introduced by them in the construction
of dwelling-houses for the poor. The idea of tubular
bricks is not new, for such articles were used by the
Romans in large vaultings, where lightness of construc-
tion was required, and they are said to be in common
use in Tunis at the present time. The size of the bricks
is 12 in. long, and three courses rise 1 ft. in height.
Nine hollow bricks will do as much walling as sixteen of
the common sort, with only a slight increase in weight.
In passing through the tile machine, or in the process of
drying, the bricks can be splayed at the ends for gables,
or marked for closures, and broken off as required in
use, or they may be perforated for the purpose of venti-
lation. If nicked with a sharp-pointed hammer, they
Will break off at any desired line 5 and the angles may

208 RUDIMENTS or THE

be taken off with a trowel as in the common brick.
The bricks for the quoins and jambs may be made solid
or perforated, and with perpendicular holes, either cir-
cular, square, or octagonal: those in the quoins may
be so arranged as to serve for ventilating shafts. The
hollow bricks, from their mode of manufacture, are
more compressed than common bricks, require less
drying, and are better burned with less fuel.

The following ﬁgures represent some of the forms of
hollow bricks in common use. a, ﬁg. 7, is an external
brick, 11—7} in. long, which with the quoin brick e,
and the jamb brick b, are sufﬁcient for building 9.in.
walls. 6 is 10%- in. long, with one splayed corner for
forming external angles, reveals, and jambs of doors
and windows, either square or splayed. The internal
jamb and chimney brick, b, is 8% in. long, 0 is an

Fig. 7.

 

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internal brick, adapted to any thickness of wall beyond
9 in. : d is for 5%-in. partitions, or internal walls, and
arch bricks, and is used for ﬂoor and roof arches of
7 to 10 ft. span. f is used for the same purpose, with

ART or MAKING BRICKS AND TILES. 209

a webb to give extra strength, and to adapt them for
using on edges in partitions, 33 in. thick to rise in
6 1n. courses.

Fig. 8 represents a specimen\of hollow brick work
in 6-in. courses, with square
rebated joints for extra strength.
These bricks are adapted to the
lining of ﬂint or concrete walls.
Fig. 9 is a section illustrative
of the construction adopted in
H. R. H. Prince Albert’s model
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It is stated that there 1s an zDadvantage of 29 per cent.
in favour of the patent bonded hollow bricks over ordi-

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nary bricks, in addition to a considerable diminution in
the cost of carriage or transport, and of 25 per cent. on
the mortar and the labour.

‘210 RUPIMENTS OF THE

CHAPTER IX.

ADDITIONAL REMARKS ON THE MANUFACTURE OF
BRICKS BY MACHINERY.

IT is proposed here to supplement the previous chapter,
wriﬂen by Professor Tomlinson in 1863, by giving
full descriptions of some of the most remarkable, or
most used, of the very many brickmaking machines
.now before the public. The trade in producing brick
machinery itself has come to be a very large one, in
which great intelligence, energy, and capital have been
invested, and from which have emanated an immense
number of inventions, chieﬂy the subjects of patents.
The results have naturally been much rivalry and com-
petition, so that, perhaps, there is no one of the trains
of machinery for making brick, which has had a success
enough to make it worth notice, which has not been ex-
posed to partial advocacy, and to equally interested and
frequently more unjust depreciation.

It would be highly out of place that “an outline” such
as this volume can alone pretend to, within its limits,
should undertake to appraise the relative merits or
demerits of the various machines we are about to notice
—the rather, as we are unable to treat the whole sub-
j ect in the exhaustive manner that alone would justify
such criticism. The following notices, therefore, must
be viewed as merely collecting before the reader, with
sufﬁcient illustrations, a few of the more prominent
brick and tile machines, or those most in use in Great

ART or MAKING BRICKS AND TILES. 211

Britain, sufficient to serve as an index to those specially
interested, Whereby more complete information may be
obtained through the respective makers or otherwise.
As has been sufﬁciently shown in the preceding
parts of this volume, the natural clays from which
bricks are to be made, though they may occasionally be
found in a state capable of being at once made into
brick, must most usually be subjected, after having
been dug out, to more or less disintegration, grinding,
and mixing into perfect plasticity, before being em—
ployed. For these purposes, the screen sometimes
being used beforehand, the crushing rollers and
the pug-mill are employed. Other methods of pro-
ducing perfect freedom from adventitious matter and
perfect plasticity are occasionally employed, when
special qualities of extra ﬁne bricks are sought for,
but with those we need not trouble the reader here.
The above machines are employed in combination,
i.6., as parts of one compound machine, as produced by
some makers, separately as turned out by others. The
clay-mill, with crushing rollers working on edge in a
circular pan, is also in use. Brick machinery itself,
s1nce the invention of Prosser, many years since, is
divisible into two great classes, wet and dry clay ma
chines, i.6., machines which form the‘brick, by moderate
pressure in moulds, from already tempered and plastic
clay, and those which, under a far more severe com-
pression, mould the bricks from clay perfectly commi-
nuted, but either dry, or at most only very slightly
moistened. One of the most salient advantages of the
dry method is, that it produces a denser brick, and one
that shrinks less both in drying and in baking than
do those made wet; and that a certain amount, though
not a very great one, of the labour and cost of the

212 RUDIMENTS OF THE

pseliminary preparation of the clay is saved. The
disadvantages, or some of them, are, that unless the
clay in the dry or merely damp state be scrupulously
well prepared, and unless a degree of pressure be
employed which demands a good deal of power, the
brick may be deﬁcient in tenacity and in uniform
solidity, or even in perfect fairness of face. On the
other hand, with certain clays, and pressures beyond a
given point, bricks are thus produced, which, though
dense and resistant, have so unporous a surface as
hardly to take bond with either cement or mortar.

Fig. 1 represents Whitehead’s Improved Clay Crush-

Fig. 1.

 

ing and Grinding Roller 'Mill, consisting of two pairs of
large iron rollers, ﬁtted in a massive cast—iron frame.
The dimensions of the top rollers (which revolve at equal
speed) are 2 ft. 6 in. long by 1 ft. 8 in. diameter. The
lower pair (running as two to one, for more thoroughly
incorporating the clay) are 2 ft. 6 in. long by 1 ft. 6 in.

ART or MAKING BRICKS AND TILES. 213

diameter. The above mill is constructed for the pur-
pose of reducing rough strong clays or hard marls not
disintegrable by water, into a state to be rendered plastic
by future operations in the pug-mill, of which two dif-

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ferent examples are given in ﬁgs. 2 and 3 by the same
maker. ‘

Fig. 2 is a large and powerful pug-mill. The cylinder
is one strong loam casting made perfectly true; it is
erected upon a massive iron basement, and provided
with two cast mouth-pieces for the discharge of the
pugged clay, one situate on each side at bottom. These
mouth-pieces may have sliding doors ﬁtted, to increase
or diminish the area of the oriﬁce, so as to cause the
clay to be more or less ﬁnely ground. This is valuable
in admitting the adaptation of the mill to the pressing
out of large and small pipes, &c.

This mill makes about three revolutions per minute,
worked by the power of one horse. The cylinder is 24 in.

214 RUDIMENTS or THE

diameter inside, and 54 in. high; the total height to top
of vertical shaft is 87 in.

Fig. 8 represents Whitehead’s Perforated Pug-mill.
The advantage of this mill is, that during the opera-
tion of pugging the clay is forced out through the

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perforations at the sides in the plastic state, leaving
behind the stones, which are carried, by means of the
internal arrangement of the knives on the vertical shaft,
through an aperture at the bottom; thus combining
the process of pugging and screening in one operation.
We entertain some doubts of the advantages of this
machine, however ingenious; for screening as a pre-
liminary operation should, whenever practicable, never
be omitted. ‘
Fig. 4 shows a very good form of nearly portable

ART or MAKING BRiCKS AND TILES. 215

clay-mill. Mills in this form may be used for grinding
Wet or plastic clay, but are more suitable for indurated
dry clays, which are to be used with one or other of the
dry-clay brick machines. The pan, as is evident from

 
     

 

 

 

 

  
   

 

 

 

      

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the ﬁgure, revolves, and the runners are carried round
by it, being free to move within a certain range verti-
cally. The pan is provided with curved blades, so ﬁxed
as to keep the stuff constantly beneath the runners.

We now come to the composite machines, in which
crushing rollers and horizontal pug-mill are combined,
as in ﬁO‘. 5.

For very hard clays, such as ﬁre-clays for ﬁre-brick,
two or even more pairs of crushing rollers may be
needed above each other, those closest set beingat bottom.

216 ART OF MAKING BRICKS AND TILES.

The rollers are driven at diﬁ'erent speeds, so as to
produce a read as well as a mere squeeze between the sur-

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faces, and so better disintegrate the clay. The rollers
are usually made about 20 in. diameter, and about 3 ft.
long. They are fed by hand, through a hopper at
top.

Having thus described the machinery generally in
use for the preparation of the clay, whether plastic or
dry, we proceed to illustrate a few of the brickmaking
machines themselves, commencing with those for operat-
ing on moist or plastic clays.

Fig. 6 represents a large machine as constructed by
Whitehead, of Preston, in which the rough clay thrown
in between the rollers at top is ground, and then passes.

  

 

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218 RUDIMENTS OF THE

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on ﬂat, and which are at intervals cut transversely
into bricks by the wires of the frames, seen in the front
of the drawing. These are moved by hand.

Fig. 8 represents another form of machine, in
which the clay, already tempered, is drawn in and con-
tinuously expressed by a pair of rollers, the prism
being cut asunder into bricks by the radial wires
forming the arms of the wheel 0, which is moved auto-
matically.

An extremely simply-contrived and most efﬁcient
French machine of this class was exhibited in 1862 in
the French department. It was an invention of M.
J ardin, and manufactured by Cazenave & 00., Paris.
At work in the Exhibition, it made at the rate of
twelve thousand per day of ten hours, with only the
attendance of two men. The division of the prism of
clay was effected by wires attached to a wheel moved by

ART OF MAKING BRICKS AND TILES. 219

the machine, but differently arranged from that of
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ART OF MAKING BRICKS AND TILES. 221

machine, which combines the crushing rollers, pug-
mill, and brick-forming in one machine.

These machines are largely run upon, and have been
employed extensively by our great contractors, and
upon many public works—facts which give the best
assurance that they answer well.

One of these machines weighs about 3% tons, and of
this second size, with about 8 or 10 horse power, will
turn out from 75,000 to 90,000 bricks per week.

We now come to another class of machines working

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with plastic clay, though capable of employing clay
nearly dry, or at least very stifﬂy tempered. ' The
machine shown in ﬁg. 10 consists of avertical pug-mill,
into the upper part of which the clay is fed, and in
which it undergoes tempering and mixing, and, on

222 ‘ RUDIMENTS OF THE

reaching the bottom of the mill, is pressed into the
moulds, of the form and size of brick required, which '
are arranged in the form of a circular revolving table.
As this table revolves, the piston-rods of the moulds
ascend an inclined spiral plane, and so gradually lift the
bricks out of the moulds, whence they are taken from the
machine by a boy, and placed on an endless band which
carries the bricks direct to the “waller.” The speed of the
several parts is so arranged, that the operations of
pugging, moulding, and delivery proceed simultane-
ously in due order, the whole being easily driven by a
steam engine of about 6-horse power, which, at the
ordinary rate of working, will make 12,000 bricks per
day ; or with 8—horse power from 15,000 to 18,000.
In consequence of the great pressure to which the clay
is subjected in the moulds, the bricks produced by this
machine may be made from stiffer clay, so that less
water has to be evaporated in the drying, thus saving
much of the time required for hand-made bricks, and
avoiding the risk of loss from bad weather.

One point of importance to remark as respects this
last class of machines, compared with the previous one,
is this—wire-cut bricks are smooth and perfect in form,
provided the clay be not only perfectly plastic, but 1967'-
fectlg/ unﬁorm and free from adventitious particles.

however, the plastic clay contains gravelly par-
tlcles, or be of such a quality that it is necessary to
mix it with ashes or “ breeze,” then the section made
by the passage of the wire drags out and after it more
or less of these solid particles, and the faces of section
are rough and uneven; in such cases resort is best had
to those machines of pressure only.

In the following brick-pressing machine also, for
plastic clay, the moulded bricks are delivered by the

ART or MAKING BRICKS AND TILES. 223

machine directly on to the horizontal belt that carries
them away; so that the labour of attendance is nearly
limited to feeding the tempered clay into the top
hopper. We are not aware to what extent as yet this
ingenious machine has been employed.

Figs. 11, 12, 13, and 14 illustrate a brick-pressing
machine recently patented by Mr. W. Longley, of Leeds.
The invention relates to an arrangement of brick-
moulding machinery, whereby bricks are produced from
“ wet” clay, having great solidity, with a smooth ex-
terior, and containing a less amdunt of moisture than
those produced by hand, or by machinery at present in
use.

Fig 11 is a side elevation of the machine; ﬁg. 12 is
a partial end elevation, showing in longitudinal section
the cylinder which carries the moulds, and presents them .
successively to a conical hopper to be fed with clay; ﬁg.
13 is a cross section of the mould-cylinder, showing its
connection with the hopper ; and ﬁg. 14: shows the
means used for locking the cylinder, so as to keep the
moulds stationary while being ﬁlled and discharged.

A A is the main framing of the machine, upon which
is mounted in suitable bearings a horizontal cylinder B.
This cylinder is cast with open ends, and it is ﬁtted
near the middle of its length with a series of four
moulds, C 0, arranged radially around it. These moulds
are formed by recesses cut through the periphery of a
projecting band a a, that surrounds the cylinder, having
their ends closed by the rings 6 6 (bolted to the cylin-
der) : a series of close chambers, D D, are formed in a
similar manner between the moulds for receiving steam
for heating the latter. Immediately above this con-
centric projection of the cylinder B, and in close prox-
imity thereto, is situate the hopper E, in which a screw

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:

ART or MAKING BRluns AND TILES. . 225

is mounted for forcing down the clay into the moulds
as they are presented to the former. .Fitted into the
moulds are plungers, F, the stems of which project
through the inner periphery of the cylinder B, and are
intended for discharging the bricks from the moulds;
the inner periphery of the cylinder B is also pierced to
receive the ends of a cruciform arrangement of steam
pipes, Gr (ﬁg. 18), for supplying steam from a central
pipe running in the direction of the axis of the cylin-
der to the chambers D; an intermittent axial motion is
given to the cylinder, for the purpose of bringing the
moulds severally under the hopper to be ﬁlled, and
subsequently under the action of a plunger the clay thus
ﬁlled into the mould presented to it is compressed
therein. When this is effected, and the cam in its
revolution has passed out of action, the weighted crank
lever draws back the plunger N out of the mould. An-
other movement of the cylinder B now takes place, and
the compressed brick is brought down to the position
for being discharged on to an endless apron O. This is
effected by the stem of the plunger, F, of the mould,
being pressed upon at its rear end by the rocking lever H.
This rocking lever is mounted on a bent bracket arm
attached to the main framing, and it is provided with a
roller, which bears upon a rocking cam having a stud
pin on the framing for its fulcrum. This rocking cam is
jointed to a rod, which connects it with a rocking arm,
pendent from a bracket on the framing. The arm
carries a roller which bears against a cam on the cam
shaft; the revolution therefore of the cam shaft gives
a reciprocating motion to the cam H, thus causing
it to rock the lever H, and depress the plunger that has
been brought beneath its inner end. This depression
of the plunger effects the discharge of the brick, which
L 3

226 RUDIMENTS OF THE

is facilitated by the heating of the moulds'through the
admission of steam as before explained. To prevent
the adherence of the clay to the compressing plunger,
that is made hollow, and steam is conveyed into it by
an arrangement of jointed steam pipes, as shown at ﬁg.
11. The discharged brick is received on to an endless
apron, O, which receives motion from the spur wheel
on the cylinder 13, gearing into a spur wheel on
the axle of one of the carrying rollers of the apron.
The cylinder B is also furnished with a ring, in the
periphery of which are four notches, corresponding
with the moulds. These notches (see ﬁg. 14) are for
the purpose of receiving the taper end of a locking bar
P, which, when it is desired temporarily to lock the
cylinder (as at the moment of ﬁlling, pressing, and
discharging the moulds), is thrust forward by a cam on
the cam shaft pressing upon a roller, mounted on the
end of the locking bar, which slides in guides provided
to receive it. The release of the cylinder is effected
by throwing back the locking bar by means of a
weighted crank arm, as in the case of the compressing
plunger. A

This machine (ﬁg. 15), the subject of a patent, is
made by Whitehead, of Preston; it works upon tem-
pered clay also. The merits claimed for it consist in
simplicity of construction and efﬁcient performance.
The junk of clay or brick may be previously moulded
as for other pressing machines, but with this machine it -
is not absolutely necessary to previously mould the lump,
if only sufﬁcient clay be supplied to make a brick, and
be simply placed in front of the piston; it then is forced
into the mould or die (of which there are four on a
revolving shaft) of the desired size, and any superﬂuous

bulk of the clay is cut off, thus making all the bricks

ART OF MAKING BRICKS AND TILES. 227

perfectly true and of uniform dimensions. During the
return of the piston the box of dies or moulds revolves
one-fourth of the way round, thus bringing another
empty mould, which has already been oiled and cleaned
by a self-acting lubricator, directly opposite the piston,

F611]. 15.

 

to receive the next brick. In the meantime, a self~
acting push-plate forces the brick, already pressed, out
of the die upon a self-acting table prepared for carry-
ing it away.

The following Well-arranged machine belongs to the
class which can operate upon either plastic or dry clay,
but which is, in our opinion, best adapted to the former.
The makers and patentees, Messrs. Bradley and Craven,
of Wakeﬁeld, have had a large experience in machinery
of this sort.

Simplicity of parts and strength are the main cha-
racteristics of this machine.

If the material be coarse or strong, it must be crushed

228 RUDIMENTS OF THE

before being passed into the hopper, into which it may
be delivered either with or without water.

Two moulds receive the charge of clay at once.
While these are being ﬁlled, the two that had been

Fig. 16.

 

Just before ﬁlled are being subjected to a considerable
pressure, and the two bricks that had just previously to
that been so pressed are in process of delivery, out of
the moulds and on to a ﬂat belt which takes them
away.

For the production of smooth, well-squared facing
bricks this machine works extremely well.

We now arrive at the last class, namely, of ma-
chines intended specially to operate upon dry clay, or
nearly dry clay.

Amongst these we may notice the patent machine of
Hersey and Walsh, which has been recommended by a

ART OF MAKING BRICKS AND TILES. 229

competent authority—Mr. Humphrey Chamberlain,
Consulting Pottery Engineer, formerly of Kempsey,
near Worcester.

This machine is stated to have been an American
invention, which attracted attention from the simplicity
of its movements and the enormous power it was capa-
ble of exerting with a small amount of friction. ~It
was found working successfully in the United States,
and arrangements made for its introduction in this
country. It produces an excellent article, and works
satisfactorily here also. ‘\

Some few alterations had to be made to adapt it
to English-sized bricks, as American bricks are little
more than one-third the cubical contents of the English.
The weight of these machines is about 25 tons, which
is necessary to withstand the enormous pressure they are
capable of exerting. They are made with any number
of moulds from 2 to 8. With 6 moulds, and driven by
a 6-horse engine, to deliver 24 bricks per minute, one
machine is capable of giving 330 tons pressure on the 6
bricks; and if worked by a more powerful engine, the
pressure can be increased, only limited by the strength
of the machine. As few clays require more than 20 or
30 tons on a brick, from 4 to 5 horse power is ample.
The motions of this machine are performed by a pair
of cam wheels, the pressure being communicated by a
pair of rollers running on the cams, with the mould
pistons ﬁxed on the shaft between them. The moulds
are raised and lowered by the same cams. The bricks
are delivered and the moulds re-fed with dry clay from
the hopper by a feeder worked by friction. The ma-
chine, after pressing 6 bricks, delivers them on a board
ready for removal, so that they go direct to the kilns
Without being handled or injured. The whole machine

230 RUDIMENTS OF THE

is ﬁxed on one bed-plate, and is made of such strength
as not to be likely to get out of order.

The following machine Will afford a sufﬁciently clear
notion of the construction, or at least the general prin-
ciples of construction, of the great majority of dry-
clay brick-machines Which have been brought into
successful action.

Fig. 17 represents the dry-clay brickmaking ma-

FEJ. 17.

 

 

WM.

chine, of Which Messrs. Bradley and Craven, of Wake-
ﬁeld, are the inventors and patentees.

One of the disadvantages or difﬁculties of making per-
fectly sound and solid bricks from completely dry clay,
however ﬁnely pulverised, is that the air lodged in the
interstices of the clay dust is sometimes not easily and
Completely expelled by a single compression, but lodges
in one or more irregular cavities into Which it has col »
lected, and so leaves the brick hollow. One of the
main objects of this machine is to obviate that evil,

ART or MAKING BRICKS AND TILES. 231

Which is proposed being accomplished by its possessing
the power of relieving each brick from pressure, and
again applying it, so as gradually to force out the air,
and ﬁnally consolidate the brick, and that to an extent
that a single pressure, though greater, and hence
exerting a. greater strain on the machine, might not
accomplish.

The patentees state : “ By this machine two or three
distinct pressures can be given to each brick. If two
pressures (that is, upward and downward) are sufﬁcient
to produce a good article from the clay, then the ma-
chine makes two bricks at a stroke, or for every revolu-
tion one brick by each eccentric. If the clay is of such
a character that the whole of the air cannot be expelled,
or the dust sufﬁciently condensed to make a perfect
brick by two pressures, then a third is given by carry-
ing the brick round under the second eccentric. With
most clays two pressures will be found sufﬁcient. It is
only necessary to test a little of the clay to be worked
so that the machine may be adjusted to mould and
press fr om any kind of earl/a equally good bricks. The
only change for giving three p1essures is, to adjust
the machine to run faster, and change the inclined
plane for giving the upward or ﬁrst pressure, and
delivering the bricks. The action of the machine is
easily understood. The clay being delivered by an
elevator from the crushing rollers into the hopper of
the machine in motion, the tappet wheel turns the
mould table the length of one mould. This action
delivers two empty moulds under the hoppers to receive
clay, delivers two bricks to the attendant, and gives a
powerful upward pressure to the clay received in the
moulds that have just left the hoppers. The table is then
for a moment stationary, while the two eccentrics give

232 RUDIMENTS OF THE

the ﬁnal strain on two bricks. When the eccentric
pistons are clear of the moulds the tappet again turns
the table one brick’s length, and the same action is
renewed. During the time the eccentrics are giving
pressure, the table is held ﬁrmly by a stop, which is
then released.”

The last of this class which we shall notice is the
dry-clay machine of Wilson, of Campbellﬁeld Brick-
works, Glasgow, which was exhibited in action at the
Exhibition of 1862.

The peculiarity of working of this machine is, that
the dry and pulverised clay prepared for being made
into brick is carried along automatically to the hopper,
and, just before being delivered into it, is subjected to
being blown upon by the waste steam discharged from
the non-condensing engine which drives the machine.
The result is a slight condensation of steam 0n and in
$126 pores of the clay, and a slight warming (f 25/26 clay
itself. From this arises a much-increased tendency to
rapid and perfect agglutination in the clay when sub-
mitted to pressure in this state. between wet and dry,
and a much readier expulsion of the air involved in
the mass. There is not the slightest doubt of the
great advantage derived from this very simple mode
of treating the dry clay prior to compression.

There are several contrivances in Mr. Wilson’s ma-
chine, as to details, also of value, especially one by
which the maximum pressure possible is so regu-
lated that the destruction of the machine is guarded
against.

One great improvement yet remains to be made to
render perfect dry-clay brickmaking machines, namely,
to adapt to them the same method that was employed
by Mr. Brockedon, in his patent for compressing dry

ART OF MAKING BRICKS AND TILES. 233

powder of plumbago into a dense and solid block to be
sawed into pencils, namely, the operating #36 compres-
sion in a vacuum, so that the air involved between the
particles of dry clay (or dust, if quite dry) being thus
extracted, the mechanical pressure is free to act fully
and solely in producing condensation and agglutination
of the clay particles.

Any one of the brick machines of the ﬁrst class,
down to ﬁg. 8, inclusive, may, by a suitable alteration
of the discharging dies and receiying tables, be made
to express and form perforated bricks, moulded bricks,
drain or other pipes, or tiles of any sort, as in
Fig. 7.

We shall therefore conﬁne our illustrations of tile-
making machinery, specially so designed, to two exam-
ples, viz., to ﬁg. 18, the large drain-pipe machine of

Fig. 18.

 

Page and 00., of Bedford, which forces out a con-
tinuous hollow cylinder from the plastic clay (as at A,
ﬁg. 19), and ﬁg. 19.

234 RUDIMENTS OF THE

The machine by Whitehead, of Preston, for pressing
one end of the cylinder so cut off to a given length, as

  
    
       

W .M.P..QU\CK.

       

II'III III

III III

    

 

4- 3,. ._\
III I.

 

at A, into the socket form, as at B, ﬁg. 19, so that the
lengths shall go together with spigot and faucet joints.

Dies of various forms, prepared to adapt to any of
the brick or tile machinery, are supplied by the makers,

ART OF MAKING BRICKS AND TILES. 235

by which almost any form (solid or hollow, tubular or
multitubular, 226., perforated like “perforated brick”),
that can be produced by the advance of a given section
parallel to itself, may be formed. The ﬁgures in Fig. '7
show a few of the more usually employed sections——
those at the right being drain-pipes, those in the middle
for building purposes, and the left-hand ones for roof-
ing use.

In addition to the machines for brick and tile making,
which we have thus pretty copiously illustrated, there
are other machines almost innumerable for making
special forms in plastic or in dry clay, referable to the
great family of bricks and tiles. A great tribe of
these machines, to which our space forbids our making
any allusion, is employed in Great Britain and abroad
in the manufacture of encaustic, or inlaid, or intaglio
tiles for ﬂooring and other architectural purposes.
Those who desire still more complete or enlarged infor-
mation on the subject of this class of machinery should
consult the Practical Mcc/zam'c’s Journal Record of 25/26
Ex/zz'bz'tion of 1862, Mr. D. K. Clarke’s “ Exhibited
Machinery of 1862,” the Reports of the Juries of
Exhibition, 1862, and the volume of Abridgments of
Patents, relating to drain tiles and pipes, bricks, tiles,
and pottery, issued by the Patent Ofﬁce, extending from
1619 to 1861. There have been many patents since
that date, and many descriptions of machines of more
or less value are also to be found scattered through the
British and foreign mechanical journals, in encyclopaedia
articles, &c. Though not important for those employ-
ing brick machinery at home, it may be desirable, for
the information of British colonists, that we should in-
dicate the form of portable high-pressure steam engine
most usually employed for actuating such. It is that

236 RUDIMENTS or THE

shown in ﬁg. 20, being one of this class of engines
manufactured by Clayton and Shuttleworth. When
bricks, &c., are required for a special contract or some
private work presenting but a terminable demand, such

Fig 20.

 

‘ -91..

 

 

 

portable engines are the best and cheapest in every
way ; but, for a great and permanent brickmaking
establishment, engines upon ﬁxed bed-plates or founda-
tions are to be preferred.

In concluding these notices of the apparatus of the
mechanical brick and tile maker, we must not omit to
call the reader’s attention to probably the greatest im-
provement that has ever been made in the construction

ART OF MAKING BRICKS AND TILES. 237

of~ kilns, for at once drying and burning brick, viz.,
the patent brick-kiln of Hoﬁmann.
This kiln is, in fact, an admirable adaptation to brick

F117. 21.

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. ,V'l, , I,
, w I I. I. ' '
c - I, , l.
.1 .1; '1‘.
, w ,‘ MI I
. .
b I l'

M

 

drying and burning of Siemens’s regenerative principle
of furnace, as will be apparent from the following

 

account, abridged chieﬂy from a paper by Professor
James Thomson, of Belfast. Fig. 21 is a half-plan on‘
top of the kiln, the other being a horizontal section at

238 RUDIMENTS or THE

the level of. the ﬂues, leading into the central chirnney—
stalk, as seen in the vertical section, ﬁg. 23. Fig. 2.2
is a diagram of the whole to a reduced scale, whlch 18

Fig. 23.

'1,
!i

\K
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.- n,
.\ ‘1
" i
1
1

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~
. .-
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' II
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.
l‘
\ \
l
H w
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”/‘J‘E 1,111.. “pi
I, ./ ,;‘ /, ,

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All Ill

.m

 

referred to in illustrating the description of the mode
of working of the kiln.

The accompanying engravings illustrate this remark-
able form of kiln, invented by M. Hoﬁinann, of Berlin,
but patented in England by Mr. H. Chamberlain, who
supplies designs for their construction, 820. Some sixty
of these kilns are already at work on the Continent and
in Great Britain. The furnace or oven consists of a
circular channel, 0, of any section, which receives the
objects to be ﬁred, introduced through doors in the
outside wall; the fuel is fed in by apertures formed in
the top of the arch. Flues lead from the bed of the

ART or MAKING BRICKS AND TILES. 239

furnace to the smoke-chamber R, which surrounds
the base of the central chimney, the communication
with which can be cut off when required by means
of cast-iron bell-shaped covers. An intercepting
damper can be lowered or placed in grooves built
into the walls of the furnace immediately behind each
ﬂue, so as' to separate it at any distinct or equidistant
compartment. The fuel passes through apertures which
are constructed in the arch, and falls through channels
formed by the objects to be burnt to a chamber in the
bed of the furnace, from which a certain number of
small ﬂues radiate to produce a free‘ current from ﬁre
to ﬁre. In practice it is found beater to divide the
kiln into twelve chambers, to which there are twelve
entries or doorways, and the same number of ﬂues
communicating with the smoke-chamber, and just as
many openings in the arch for the reception of the
large intercepting dampers—thus the furnace can be
divided at any one of the twelve parts. For clearer
distinction, these compartments may be numbered, as
in ﬁg. 22, from 1 to 12, of which two, Nos. 12 and
1, we will suppose are separated by the intercepting
damper. The objects to be burned may be bricks or
tiles, &c. Suppose the ﬁre in full operation—the doors
leading to the compartments 1 and 2 being open, N o. 1
for ﬁlling it with fresh goods, and N o. 2 for taking
out those already burnt. The chambers Nos. 3, 4, 5,
and 6, which are all ﬁlled with burned goods, are
gradually cooling by the air entering through the doors
of Nos. 1 and 2, and as it passes on through warmer
and at last glowing ware, it will result that the kiln
ﬁres are supplied with atmospheric air almost as hot as
the furnace itself. In chamber N o. 7 the ﬁre is burn-
ing, and when its contents have reached the desired

240 RUDIMENTS OF THE

temperature, No. 8 will have arrived at such a degree
from the absorption of the waste heat, that the fuel
introduced from the top is instantly inﬂamed. ‘

The compartments Nos. 9, 10, 11, and 12, will be
dried off, and heated one after another by the waste
heat which passes through and expends itself on the
contents of these chambers, and on its arrival in No. 12,
meeting with the obstruction of the large damper,
it is conducted by the small ﬂue to the chimney, with
its temperature again so lowered that it will only just
support the draught. No. 1 being new fi'lled again,
the damper between 12 and 1 is lifted and lowered be-
tween 1 and 2. The bell damper above the mouth of
the ﬂue NC. 12 is lowered, and that of No. 1 lifted.
The doorway of N o. 12 is then closed, and that of
the compartment No. 3 opened, the contents of which
will be sufﬁciently cooled to be taken out, while N o. 2,
which is empty, can be ﬁlled again.

On the 5th of January, 1864, Professor J. Thomson,
of Belfast, read a paper on the manufacture of bricks,
before the Chemico-Agricultural Society of Ulster, in
which he referred at considerable length to the Hoﬂm ann
oven. The following is an abstract of his paper :—
Having explained the chief methods in use for working
the clay and forming it into bricks ready for the kiln,
he then turned attention to the great loss of heat which
occurs in the ordinary modes of burning bricks in com-
mon kilns. This loss is twofold. First, during the
burning of the bricks the air which has passed through
the fuel, or among the heated bricks, and the smoke,
including the gaseous products generally, passes away
from the kiln to waste at a very high temperature, even
at a red heat, during a considerable part of the process.
Secondly, when the bricks are raised to the high tem-

ART or MAKING BRICKS AND TILES. 241 .

perature required to burn them, and render them per
manently hard, the great store of heat which they
contain is entirely thrown to waste while they are
left to cool. In this new kiln a remarkable economy
of fuel is effected, by saving the twofold loss of heat
already mentioned: ﬁrst, it saves the heat of the
gaseous products of combustion and unconsumed air
passing through and away from the burning bricks, by
applying this heat effectively in drying the new fresh
bricks about to be burnt, and raising them up to an
incandescent temperature, so that only a very slight
addition of heat from ignited fuel directly is required to
complete their burning; and, secondly, it saves the
heat of the cooling bricks, after their having been
sufﬁciently ﬁred, by applying it all again in warming
the air which goes foward to supply the ﬁres; so that
the fuel is burnt with air already at nearly an incan-
descent temperature, instead of requiring, as usual, to
heat the air for its own combustion. Professor Thom-
son explained, as an example, the large kiln which
Mr. Moore was then constructing at his brick-works at
Hayﬁeld Park, in the neighbourhood of Belfast. The kiln,
as will be seen, is built in the form of a large arched
passage, like a railway tunnel, bending round in going
forward on the ground till it closes with itself to form a
great circular ring-chamber, within which the burning
of the bricks is carried on. This ring-chamber may be
of any convenient dimensions, 160 ft. diameter being
a suitable size. Round its circumference there are
twenty-four entrance doorways, admitting of being
closed with temporarily-built bricks and clay, so as to
retain the heat and exclude all entrance of air by the
doorways so built up. The great ring-chamber may now
be conceived as consisting of twenty-four compartments
M

242 RUDIMENTS OF THE

or spaces, with one of these doorways to each. In the
centre of the ring a high chimney is erected, and from
each of the twenty-four compartments of the annular
chamber an underground ﬂue leads into the chimney.
There are, then, twenty-four of these ﬂues converging
towards the centre like the spokes of a wheel, and each
ﬂue has a valve, by which its communication with the
chimney can be cut off. Arrangements are made by
which a partition like a damper can be let down at plea-
sure, or otherwise placed, so as to cut 03 all communi-
cation between any of the twenty-four compartments of
the ring—kiln and the next one. Let us now suppose the
working of the kiln to have been already fairly esta-
blished; for, after being once kindled, the ﬁre is never
extinguished, but the burning of new bricks and the
removal of the ﬁnished produce are carried on by a con-
tinuous and regular process from day to day. Two
adjacent compartments have this day their entrance
doors open, all the rest being perfectly closed. By
the arrangement of the valves in the ﬂues, and the
large partition, the air which gets admittance alone
by the two open doors has to go round the whole
circuit of the ring-kiln in order to be drawn into the
chimney. From one of the two open compartments
men are taking out the ﬁnished and cooled bricks, and
in the other one they are building up newly-formed
unburnt bricks which are not yet quite dry. The air,
entering by these two compartments, passes ﬁrst among
bricks almost cold and takes up their heat, and then
goes forward to warmer bricks, and then to hotter
and hotter, always carrying the heat of the cooling
bricks forward with it till it reaches the part of the
ring diametrically opposite to the two open and cold
compartments. At this place it gets a ﬁnal accession

ART or MAKING BRICKS AND TILES. 243

of heat from the burning of a very small quantity of
small coal, which is dropped in among the bricks from
time to time by numerous small openings furnished
with air-tight movable lids. Thus at this part of the
kiln there is generated the full intensity of heat which
is required for the burning of the bricks. The hot air,
including the products of combustion, which, for brevity,
we may call the smoke, though it is really perfectly
gaseous and free from sooty particles, then passes for-
ward to the bricks, which, by its continuous current,
are being heated; and it passes on among them from
hot bricks to those which are less and less hot, heating
them as it goes, and then passes on to those which are
still damp, drying them as itgoes; and then it passes
to the chimney, in a state almost cold, and saturated
with the moisture, in the form of steam or vapour,
which it has taken from the damp bricks. On the
Iollowing day to that on which the operations just
described have been going on, the partition is shifted
forwards by the space of one compartment, and a
corresponding change is made as to the ﬂue which is
to communicate with the chimney, and as to the pair of
compartments open for the admission of air and for the
removal of ﬁnished cold bricks, and the building in of
fresh damp bricks ; and so the air, including the products
of combustion, at the end of its circuit in the annular
chamber, just before passing off to the chimney, now
passes among the fresh bricks which were described as
built in on the yesterday of this new day. The place
where the small-coal fuel is thrown in is also advanced
round the circle by the stage of one compartment ; and
so now the whole process goes on just as it did yesterday.
The ﬁre thus makes a complete circuit of the annular
chamber in twenty-four working days. The whole
M 2

244 kRT or MAKING BRICKS AND TILES.

process may be left dormant on Sundays, merely by the
closing of all apertures for the admission of the current
of air. The same kind of kiln, with the same process
of working, is applicable in the burning of lime; and
both for the brick-burning and the lime-burning, the
saving of fuel, relatively to what is consumed by the
ordinary methods, is such as to appear at ﬁrst sight
almost incredible.

The Hoffmann or Chamberlain kiln is not so easily
applicable to burning lime as it is to brick, nor will it
answer without considerable modiﬁcation for burning
thin and light tiles or pottery. There must be mass
enough in the goods to be ﬁred to afford the requisite
magazine of absorbed heat to be afterwards used up,
and the draught must not be impeded as by the breaking
down of limestone when burnt into lime.

Those kilns are not necessarily made circular. They
are, indeed, now more usually rectangular, with
or without rounded ends, in plan. When originally
writing the preceding, the author of this chapter had
not himself seen those kilns at work, and hence quoted
from others as to their properties, &c. He has since,
however, had occasion, professionally, to make himself
fully acquainted with their construction and perform-
ance, and can indorse fully all that has been stated,
and, indeed, might say much more. in their com-
mendation.

Many structural improvements and simpliﬁcations
have latterly been made in those kilns; but as the
patentee, Mr. H. Chamberlain, as a Pottery Engineer,
is professionally engaged in providing designs for those
who employ these kilns, it would not be fair that the
writer should here enter into further details.

A lPPEND IX I.

THE following paper was read by Mr. Tomlinsoa at a meeting of the
Geologists’ Association, on February 3, 1862 :—

ON THE PLASTICITY AND ODOUR or CLAY.

It is a happy result of Bacon’s method of inquiry that science is
not required to explain the causes of things, but to state the laws of
phenomena. Nevertheless, while these laws are obscure, and facts
are scattered, theory may often do good service by collecting and
marshalling them : for, as our great master of induction well observes,
“ Facts are the soldiers, but theory is the general.” And again,
“ Truth is more easily evolved from error than from confusion.” That
is, a bad theory is better than none at all, for it serves to collect and
arrange the facts, and thus makes them more easy to handle.

In these remarks must be found my excuse tonight for endeavour-
ing to bind together some of the facts respecting a property of a
very common substance; namely, the Plasticity of Clay.

The more I consider this property the more wonderful and inex-
plicable does it appear. Take a mass of dry clay; it cracks easily,
and crumbles readily: add to it a certain proportion of water, and it
becomes plastic—it obeys the will of the artist or the artizan, who
can, out of this yielding mass, create new forms, or perpetuate old
ones. Drive off the water at a red heat, and plasticity is for ever
lost; rigidity takes its place: the clay is no longer clay, but some-
thing else. It may be reduced to powder, and ground up with water;
but no art or science can again confer upon it its plasticity.

All this is very wonderful. There is another fact that is equally
so : if we combine the constituents of clay in the proportions indi-
cated by the analysis of some pure type of that substance, we fail to
produce plasticity. I have on the table specimens of Dorset clays
dry and crumbling; the same wet and plastic; and the same in the
forms of casts of fossils, which have been passed through the ﬁre,

246 APPENDIX.

and have exchanged plasticity for rigidity. They are, in fact, in the
form of biscuit.

With respect to the temperature at which clay becomes rigid, we
have no accurate information. It is much lower than is generally
supposed, as will appear from the following experiment :—I pounded
and sifted some dry Dorset clay, and exposed it to a sand-bath heat
in three portions varying from about 300° to 600°. Specimens were
taken out from time to time, and rubbed up with water, but they did
not lose their plasticity. Some clay was put into a test tube with a
small quantity of mercury, and heated until the mercury began to
boil. At this temperature (viz. 650°) the clay did not cease to be
plastic. The ﬂame of a spirit-lamp was applied, and the tube was
heated below redness ; after which the clay, on being mixed with water,
showed no sign of plasticity.

In experiments of this kind, the ﬁrst action of the heat is to drive
off the hygrometric water. The clay then becomes dry, but is not
chemically changed; it does not cease to be plastic. On continuing
to raise the temperature, the chemically combined water is separated,
and the clay undergoes a molecular change, which prevents it from
taking up water again, except mechanically. With the loss of this
chemically combined water, clay ceases to be plastic.

It. was, I believe, ﬁrst noticed by Brongniart,’*‘ that we cannot pro-
duce plasticity by the synthesis of clay. The ﬁre clay of Stourbridge,
for example, is a hydrated silicate of alumina, represented by the for-
mula A12 03, 2 Si 02 + 2 Aq. If we mix one atom of the sesqui-
oxide of alumina with 2 atoms of silica and 2 of water, we get a
compound which cannot be called clay, since it is wanting in plasticity.

It is quite easy to obtain either alumina or silica in the, gelatinous
state ; but we cannot obtain them in the plastic state.

Clay is almost the only substance in the mineral kingdom that pos-
sesses plasticity. In loam, if the sand be in large proportion, and in
marl, if calcareous matters abound, so as to deprive either material
of plasticity, it ceases to be clay. There are also certain silicates of '
alumina which are not plastic ; such as bole, lithomarge, and fullers’-
earth. Bole consists chieﬂy of a hydrated bisilicate of alumina, in
which a portion of the alumina is replaced by sesquioxide of iron.
Lithomarge also contains iron, and is sometimes so compact as to be
used for slate-pencils. Fullers’-earth contains lime, magnesia, and
iron, in addition to its principal ingredients.

* “ Traité des Arts Céramiques.” Paris, 1844. Vol. i. p. 82.

APPENDIX. 24.;

There is probably no substance so indeterminate in its composition
as clay. Regarding it, as Lyell does,* as “ nothing more than mud
derived from the decomposition of wearing down of rocks,” it must
necessarily contain a variety of substances; such as oxide of iron,
lime, magnesia, potash, silica, bitumen, fragments of undecomposed
rock, &c. These substances impair the plasticity of the clay, and
impress upon it certain characters which are of more importance to
the manufacturer than to the chemist, or the geologist. Brongniartl‘
enumerates, and gives the analyses of no fewer than 167 clays and
28 kaolins, all of which are in use in the arts in different parts of the
world. They probably all differ in plasticity, but they all possess it;
and at a high temperature exchange it for rigidity. A rough method
of measuring the plasticity of different clays is to note the length to
which a cylinder of each can be drawn out in a vertical direction
without breaking. In such a comparison, the clays must, of course,
be worked equally ﬁne, and contain the same proportion of water.

It is commonly stated that the ingredient that confers plasticity
on clay is its alumina; and yet, strange to say, pure alumina alonc
whether gelatinous, or after having been dried and ground up with
water for a long time, never gives a plastic paste. Indeed, nothing
can be conceived less plastic than gelatinous alumina, as may be seen
from the specimens on the table. We may drive off most of the water
from this gelatinous hydrate, but it will not become plastic. Or we
may form clay by mingling solutions of the silicate of alumina and the
aluminate of potash. You see they are perfectly ﬂuid. I apply the
heat of a spirit-lamp, and we get an opalescent gelatinous mass, but
still no plasticity. We have, indeed, formed a gelatinous clay.

We cannot say that the gelatinous state of alumina is the cause of
plasticity in clay; for silica may be made as gelatinous as alumina,
and silica is certainly not the cause of plasticity. It may be that the
strong afﬁnity of alumina for water (retaining a portion of it even
when near a red heat) may be the cause of this property—just as
turpentine renders wax plastic, and water and gluten confer the
same property on starch.

We have seen that clay ceases to be plastic when its chemically
combined water has been driven off. Still, however, water cannot be
said to be the cause of plasticity, as a general property, since we
have, in melted glass, a more perfect example of plasticity even than

5 “Manual of Elementary Geology ” (1855), p. 11.
1' “ Des Alts Céramiques," Atlas of Plates.

248 APPENDIX.

in clay; and few substances are more plastic than sealing-Win at a
certain temperature.

A clear idea of plasticity, and of some of the other mechanical
properties of matter, may probably be gained by considering them as
variations of the forces of cohesion and adhesion, and by bringing
these, in their turn, under Newton’s great law of attraction, which,
whether exerted between atoms or masses, is directly as the mass,
and inversely as the squares of the distances.

Now, if we suppose the distances between the molecules of matter
to be 1-millionth or billionth, or 2, 3, 4, 5, 6, &c., millionths or bil-
lionths of an inch asunder, the intensity of their attractions will be 1,
ﬁ-th, 313th, {gth, &c., or, to represent it in a tabular form :—

Distances 1 2 3 4 5 6 7 8 9 10, &c.

Intensities of attraction 1 i % T11; 31;; 31:; £3; 31-; ng 7-5-5, &c.
Suppose the molecules to be of the same density, but at different
distances apart, as represented in the upper line. At the distance of
l-millionth of an inch we get an intensity of attraction represented
by 1. At 2-millionths of an inch the force of attraction is only one-
fourth. Now, the idea is this, that the mechanical properties of
matter,—such as porosity, tenacity, hardness, brittleness, plasticity,
elasticity, &c., depend upon variations in the attractive force of the
molecules according to the distances apart of such molecules. Thus,
if the molecules of clay require to be 5-millionths of an inch apart
in order to produce plasticity, the intensity of attraction between
them will be represented by gE—gth ; but if such clay be passed through
the ﬁre, and the molecules, in consequence of the escape of water,
he brought nearer together, and rigidly ﬁxed at 4-millionths of an
inch asunder, the force of attraction will then be Tlgth.

Now, the method of arranging the particles of clay at that precise
distance that shall impart plasticity, is one of Nature’s secrets that
we have not yet succeeded in penetrating. It may be that the circum-
stances under which clay is formed and deposited, or the time that
has elapsed since its formation, or the pressure of the superposed
layers, may have so arranged the particles as to enable them to
become plastic when the proper proportion of water is added. It
may be that a certain state of disintegration is required on the part
of the alumina and the silica, so that their proximate elements shall
be neither too ﬁne nor too coarse; or it may be that the silica, in
combining with the alumina, separates the atoms of the latter to pre-
cisely those distances required for the development of the property;

APPENDIX. 249

or, lastly, the presence of a small portion of animal or other organic
matter in clay may have something to do with this remarkable pro~
perty.

An extensive series of experiments, by Delesse,eie show the presence
of animal matter in quartz and various rocks, where its presence had
not previously been suspected; and this may have as important an
effect in modifying the properties of a mineral as the presence of
minute portions of bodies, formerly entered as impurities, has in
producing pseudo morphous crystals.

Still, the question recurs, Why is not a clay artificially formed
from pure materials plastic? The answer is, that we do not know all
the conditions of plasticity. We do know the conditions under which
some mechanical properties exist—such as the hardness of steel, the
brittleness of unannealed glass—and can confer or remove such pro-
pertics at pleasure. But with respect to plasticity, we can only confer
a factitious property of this kind on mineral substances by taking
advantage of another property which it somewhat resembles, namely,
22229003in or vz'scz'dity. Viscosity differs in plasticity in this, that the
viscous body does not retain the form impressed upon it when the
force is rcmoved, as a plastic body does. The materials of the old
soft porcelain of Sévres had no plasticity; but this preperty was con-
ferred by means of soft soap and parchment size."r

Without Speculating further on the nature of plasticity, I may
remark that in the ancient philosophy the word was one of power.
Derived from the Greek «Macaw, or «Karma», “to form,” or “to
create,” it not only included the arts of modelling in clay, but also
sculpture and painting, and, by a reﬁnement of language, poetry and
music. Plato and Aristotle even supposed that a plastic virtue
resided in the earth, or did so originally, by virtue of which it put
forth plants, &c.; and that animals and men were but eﬁ'ects of this
plastic power. They did not suppose the world to have been made
with labour and difﬁculty, as an architect builds a house; but that a
certain “efﬁcient nature” (natum qfecz‘rix) inherent and residing in
matter itself, disposed and tempered it, and from it constructed the

* “ De l'azote et des maiieres organiques dans l‘ecorce lerrestre."—Annales den
Hines, xviii., 1860.

1' Brongniart (“Des Arts Céramiques ") says that the old porcelaines tendres were
formed of 22 per cent. of fused nitre, 60 of Fontainebleau sand, 7-2 of salt, 3-6 of alum,
2'6 of soda, and 3'6 of gypsum. These materials were fritted and ground, and 75
parts taken, to which were added white chalk 17 parts, marl 8. This mixture was
ground, sifted very ﬁne, and made up into a paste with l-Sth soft soap and size, or, at
a later period, with gum tragacanth.

M3

250 APPENDIX.

whole world. Aristotle distinctly recognises mind as the principal
and directing cause, and nature as a subservient or executive instru-
ment. Even in later times men have contended for the existence of
a plastic nature, or incorporeal substance endowed with a vegetative
life; but not with sensation or thought, penetrating the whole uni-
verse, and producing those phenomena of matter which could not be
solved by mechanical laws. The learned Cudworth supports this
viewﬁie and the discussions into which it led him and other metaphy-
sicians form a curious chapter in the history of the human mind. In
England we do not now retain the term plasticiig, except as a phy-
sical property of matter 31" but in Germany it has still an extensive
ﬁgurative meaning. The word plastisc/z still means dildend or
sc/zb'pferz'sc/i (i.e. “ creative”) ; and it is still applied not only to sculp-
ture, but also to painting, poetry, and music. A German well under-
stands the expression “ plastische Gedanken,” or “ plastic thoughts.”

Before concluding, I would refer to another property of clay, which
seems to me as wonderful as its plasticity; namely, its odour when
breathed on, or when a shower of rain ﬁrst begins to wet a dry clayey
soil. This odour is commonly referred to alumina, and yet, strange
to say, pure alumina gives off no odour when breathed on or wetted.
The fact is, the peculiar odour referred to belongs only to impure
clays, and chieﬂy to those that contain oxide of iron. This was
pointed out by Brongniart as far back as 1816,: who also remarked
that minerals which do not contain alumina, such as pulverised chal-
cedony, possess this remarkable property.

I have found that a pure kaolin, ground up in a mortar with a
small quantity of water, emits a slight odour, which, however,
becomes much more sensible if a little sesquioxide of iron be
added.

Smooth quartz pebbles when rubbed together give an electric spark,
and a fetid odour. It is commonly supposed that sea-side pebbles
alone possess this property ; but the odour belongs equally to those
found among gravel overlying the chalk, and in ploughed lands where
the surface is exposed to all the vicissitudes of the weather. It is quite
possible that the odour of these pebbles may hereafter be traced to
the presence of organic matter ; but 1 cannot resist the reproduction
here of a suggestive hint given me by my friend Professor Bloxam,

* See “ The True Intellectual System of the Universe," by Ralph Cudworth, D.D.,
1678. A reprint has been published by Tcgg, in which see Vol. I., p. 226, et seq.

1 Dr. Johnson deﬁnes plastic as “ having the powerfo give form.”
I ‘- Dietionnaire aes Sciences Naturelles," art. Argue.

APPENDIX. 251

who is reminded by the spark and odour from these pebbles of the
presence of ozone.

What, again, is the cause of the odour in the narrow parts of stone
buildings, not of new buildings alone, but of old ones, as in the stair-
cases of old cathedrals?

I do not attempt to reply to these questions. It requires some
amount of knowledge and experience to put them—but how much
more to answer them!

ON DRYING BRICKS.
( Eetracted ﬂ'om N obte’s “Professional Practice of Architects,” 1). 143.)

“ The observations by Richard Neve, above a century since, upon
stoc/c brie/cs, will illustrate the subject: ‘ When the ﬁac/e is as high as
they think fit, they cover t/zem wit/i straw till they are dry enough to
burn, ’ &c., &c. He proceeds: ‘ A brickmaker being sent to Rum-
ford, in Essex, went to work unadvisedly, and laid them abroad in a
place to dry; but the sun, about ten o’clock, began to shine very hot,
and the whole quantity of bricks burst to pieces, so that he was forced
to go to work again: and then, bcfore the sun shone too hot, he
thatched or covered them over with straw till the next morning,
when removing it, they did very well when set on the hack ; and
when burnt, were curious red brie/cs, which would ring when hit with
any hard thing.’ ”

 

ON THE USE or COAL Dusr IN MAKING CLAMP BRICKS.
(Ectractedﬁ'om Noble’s “ Professional Practice of Arc/aitects,”p. 153.)

“Natives should be employed (in ma/ciag brie/cs in Wales) in the
manufacture, in preference to London hands, as the former use coal
dust in preparing the earth, and not breeze (ashes), as about London;
and provided an undue portion of coal is used, a whole clamp would
be destroyed, of which there was an instance at Lampeter (Cardigan-
shire). An Islington brickmaker was sent to Wales, and as he was
too conceited to make inquiries, or to receive information, set light
to a clamp he had prepared with coal, being 7 0,700; and in avery
short time the whole kiln was in one general blaze. The man being
alarmed, took to his heels, and, unlike Lot’s wife, he turned not
back, neither looked behind him. Even from the heights leading to
Landovery the reﬂection was quite enough for him ; nor did he stop

252 APPENDIX.

till he reached London, being, as he said, ‘ afeared’ they would catch
him and put him in prison! ”

BRICKMAKING AT GREAT GRIMSBY, LINCOLNSHIRE.

Large quantities of bricks have been made during the last few
years at Great Grimsby, for the Dock Company, from the Humber
silt. These bricks are remarkable for their colour, which varies in
the same brick from dark purple to dirty white, passing through
various shades of blue, red, and yellow, in the space 01 two or three
inches. The silt, when ﬁrst dug out of the bed of the Humber, is of
a dark blue colour, which soon, from exposure to the air, changes to
a brown.

The bricks made for the Dock Company were burnt in close
clamps—ﬁred with layers of small coal, but without coal-dust or
ashes being mixed with the clay as in London brickmaking. With
the ﬁrst clamps there was much waste, the quantity of fuel being
excessive, and the bricks were cracked and made brittle in conse-
quence; but the experience obtained by the ﬁrst trials has led to the
production of a sound well-burnt brick, with, however, the peculiar
colour above mentioned.

Considerable quantities of bricks have been lately made for sale at
Great Grimsby, and burnt in clamps with ﬂues, as in kiln burning,
which method appears to be attended with less waste than close
clamping.

The slack or small coal used for fuel may cost from 28. (id. to 48.
per 1,000 bricks. The cost of clay getting, tempering, moulding,
and drying, is about 8.9. 65!. per 1,000. The moulds used are of
wood, plated with iron. The process employed is that known as
slop-moulding. .

Kilns as well as clamps are used in this part of Lincolnshire, their
construction being similar to that of the kilns in general use [in the
Midland Counties. i

BRICKMAKING IN SUFFOLK.

Two kinds of bricks are made in Suffolk, viz., reds and whites; The
latter are much esteemed for their shape and colour, and large quan-
tities arc annually sent to London, for facing buildings of a superior
class. 1

APPENDIX. 253

Way—The supplies of brick-earth are chieﬂy derived from the plasnc
clays lying above the chalk, although the blue clay is occasion-
ally used.

The clays in most parts are too strong to be used as they rise,
and have consequently to be mixed with a white loam or a
milder earth. \

Tampering—The clay is turned over in February and March, and in
some parts of Suffolk it is passed through the wash-mill, but
this is not generally the case.

Tempering is generally performed by spade labour, but the
pug-mill is sometimes used, although not commonly, for white
bricks; it is, however, used for all other white ware.

Moulding—77m Z/rz'c/c 72202de is of wood, shod with iron; the dimen-
sions vary slightly according to the nature of the clay, but are
usually as follows: 9§ths long by 4—1—{Irths wide and 3% deep.
There is no hollow formed in the bottom of the brick for the
mortar joint. Brass moulds are unknown.

Sen sand is used in the process of moulding, for sanding the
mould and the table. '

Tire stri/ce is used for taking off the superﬂuous clay from the
mould. The use of the plane is not known.

Drying—The bricks are not dried on ﬂats as in the Midland Coun-
ties, but are taken directly from the moulding stool to the hacks.
Sheds are used in some yards, and drying houses with ﬂued
ﬂoors are used in winter for pantiles and kiln tiles, but not for
bricks.

The length of a hack is about 70 yards, and each moulder
Will keep four hacks going.

The time required for drying in the hacks of course varies
according to the weather, but may be stated on an average at
about eighteen days for red bricks. White bricks dry somewhat
quicker.

The contraction of the clay in drying amounts to about% in. in
the length of a brick, and, if properly burnt, the shrinkage in
the kiln is imperceptible.

The weight of a brick, when ﬁrst moulded, is about 8 lbs. ;
when dried, about 7 lbs.; and when burnt, about 61bs.; but
much depends upon the nature of the earth.

Burning.—-lee construction of tile kiln is quite diﬁ'erent from that of
the kilns used in other parts of England, having two arched

254

APPENDIX.

furnaces running its whole length underneath the ﬂoor,
which is formed of a kind of lattice work, through the
openings of which the heat ascends from the furnaces
below.

The cost of erecting a kiln to burn 50,000 whites is about
£145. A kiln to burn 35,000 reds costs about £100.

The bricks are commonly set in the kiln in bolts two
bricks long by ten on ; but some brickmakers prefer to cross
them in the alternate courses, in order to admit the heat
more freely.

The fuel used is coal, and the quantity consumed is
about half a ton per 1 ,000 £01 white, and7 cwt. per 1, 000
for red, bricks.

The time of burning is about 60 hours for white, and 40
hours for red, bricks; white bricks requiring a greater heat
than the red ones to bring them to their proper colour.

Cost of Mmzw’achn'e.

The selling prices vary from £1 88. to £2 per 1,000 for reds,

and

from £2 to £2 103. per 1,000 for whites.

Of red bricks two qualities only are distinguished, viz. ,
outside and inside; of white, four qualities are distinguished,
viz., best, 2nd, 3rd, and murrays.

The price of the ordinary red brick is about £1 83. per 1,000,
and the cost may be thus divided :—

 

£ 8. - (1.

Clay digging, per 1,000 . . . . 0 2 _ 0
Tempering, ditto . . 0' 1 “'0
Moulding, ditto V O 4 6
Drying, ditto . 0 0 G
Moulding sand, ditto . 0 0 p 9
Bairowing f1 om hacks and setting kiln, ditto 0 1 13
Burning, ditto . ' . 0 1 ,6
Drawing kiln, ditto . 0 0 6
Stacking, ditto . 0 0’ 3
Cost of labour per 1,000 £0 12 6

Goals, about . . . 0 7 0
Rent, tools, contingencies, and proﬁt 0' 8 6
Selling price at the yard, about £1 8 0

t

APPENDIX. 255

White bricks are made in many parts of England, but the Suffolk
whites have the preeminence over all others.

The white bricks made near Lincoln are remarkable for swelling
when laid in work, which causes them to throw off the mortar joints,
and renders it impossible to make use of them in good work.

The clay from which these bricks are made extends from the
Witham northwards as far as the Humber, and, so far as we are
aware, possesses the same property throughout this distance, the
bricks made from it at various points between the Witham and the
Humber having the common defect of swelling after burning. A
curious specimen of this may be seen in a large chimney at Saxilby,
which has a complete twist, from the irregular swelling of the brick-
work.

The peculiar property of swelling after burning is not conﬁned to
the Lincolnshire white clay. The author was informed some years
ago, by Mr. Vignoles, 0.13., that some of the bricks made on the
Midland Counties Line of Railway, between Rugby and Derby, had
the same defect.

For the above particulars respecting the Lincolnshire white bricks
we are indebted to Mr. William Kirk, of Sleaford.

‘ON THE MAKING AND BURNING or DRAIN TILES.

Extracts from a communication by Mr. Law Hodges, published in
the Journal of the Royal Agricultural Society of England, Vol. V.
. Part II. :—

“ Reﬂecting on these obstacles to universal drainage, where
required, I conferred with Mr. John Hatcher (brick and tile maker,
and potter, Benenden, Kent), on the possibility of erecting a kiln
of common clay that would be effectual for burning these tiles, and
of cheap constructionl—and the result was the building one in my
brickyard in July last, and the constant use of it until the wet.
weather at the commencement of this winter compelled its discon-
tinuance, but not until it had burnt nearly 80,000 excellent tiles;
and in the ensuing spring it will be again in regular use.

“I shall now proceed to take in order the six points enumerated
under the 9th head of the Prize Essays for 1845, as printed in the
last volume of the Royal Agricultural Society’s Journal, viz. :—

256 APPENDIX.

' Let. Mode of working clay according to its quality;
“ 2nd. Machine for making tiles.
“ 3rd. Sheds for drying tiles.
“ 4th. Construction of kilns.
“ 5th. Cost of forming the establishment.
“ 6th. Cost of tiles when ready for sale.

“ lst Point. Working the clay.

“ All clay intended for working next season must be dug in the
winter, and the earlier the better, so as to expose it as much as pos-
sible to frost and snow. Care must be taken, if there are small
ratones in it, to dig it in small pits, and cast out the stones as much
as possible, and also to well mix the top and bottom of the bed of
clay together. It is almost impossible to give minute directions as
to mixing clay with loam, or with marl when necessary, for the better
working it afterwards, as the difference of the clays in purity and
tenacity is such as to require distinct management in this respect in
various localities; but all the clay dug for tile-making will require to
be wheeled to the place where the pug-mill is to work it; it must be
there well turned and mixed in the spring, and properly wetted, and
ﬁnally spatted down and smoothed by the Spade, and the whole heap
well covered with litter to keep it moist and ﬁt for use through the
ensuing season of tile-making.

“ end Point. Machine for making tiles.

“ For the reasons already alluded to, I prefer Hatcher’s machine-
Its simplicity of construction, and the small amount of hand labour
required to work it, would alone recommend it; for one man and
three boys will turn out nearly 11,000 pipe tiles of 1 in. bore in a day
of ten hours, and so in prOportion for pipes of a larger diameter; but it
has the great advantage of being movable, and those who work it draw
it along the shed in which the tiles are deposited for drying, previously
to their being burnt: thus each tile is handled only once, for it is
1taken oﬁ’ the machine by the little boys who stand on each side, and
at once placed in the rows on either side of the drying shed, thus
rendering the use of shelves in the sheds wholly unnecessary, for the
tiles soon acquire a solidity to bear row upon row of tiles, till they
reach the roof of the sheds on either side; and they dry without
warping or losing their shape in any way.

“ The price of this machine is £25, and it may be proper to add,
that the machine makes the very best rooﬁng tiles that can be made,
and at less than half the price of those made by hand, as well as

APPENDIX. 257

being much lighter, and closer, and straighter, in consequence of the
pressure through the die. ‘

“ It is necessary, in order to ensure the due mixing of the clay, as
well as to form it into the exact shape to ﬁll the cylinders of the
machine, to have a pug- -mill. Messrs. Cott am and Hallen make these
also, and charge £10 for them. This mill must be worked by a
horse ; in general one day’s work at the mill will furnish rather more
prepared clay than the machine will turn into tiles in two days

“ 3rd Point. Sheds for drying.

“ The sheds necessary for this system of tile-making will be of a
temporary kind: strong hurdles pitched ﬁrmly in the ground in two
parallel straight lines, 7 ft. apart, will form the sides of the sheds,
and the roof will be formed also of hurdles placed endways and tied
together at the top, as well as to the upper slit of the hurdle, with
strong tarred twine, forming the ridge of the roof exactly over the
middle of the shed. They must then be lightly thatched with straw
or heath, and the sharpness of this roof will effectually protect the
tiles from rain. Two of these sheds, each 110 ft. long, will keep
one of the kilns hereafter described in full work.

“ N.B.—These sheds should be so built as to have one end close
to the pug-mill and the clay-heap, only leaving just room for the
horse to work the mill, and the other end near the kiln. Attention
to this matter saves future labour, and therefore money.

“ 4th Point. Construction of kilns.

“The form of the clay kiln is circular, 11 ft. in diameter, and
7 ft. high. It is wholly built of damp earth, rammed ﬁrmly together,
and plastered inside and out with loam. The earth to form the walls
is dug out round the base, leaving a circular trench about 4: ft. wide
and as many deep, into which the ﬁre-holes of the kiln open. If wood
be the fuel used, three ﬁre—holes are sufﬁcient ; if coal, four will be
needed. About 1,200 common bricks are wanted to build these
ﬁre-holes and ﬁnes; if coal is used, rather fewer bricks will be
wanted, but then some iron bars are necessary—six bars to each fire-
hole.

“The earthen walls are 41 ft. thick at the ﬂoor of the kiln, are
7ft. high, and tapering to the thickness of 2 ft. at the top; this
will determine the s10pe of the exterior face of the kiln. The inside
of the wall is carried up perpendicularly, and the loam plastering
inside becomes, after the ﬁrst burning, like a brick wall. The kiln
may be safely erected in March, or whenever the danger of injury

APPENDIX.

258

      
        

 

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Fig. 2. Fiona of T 01) 0f Kiln.

259

APPENDIX.

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After the summer use of it, it must be protected

from frost is over.

by faggots or litter against the wet and the frost of Winter.

“ A kiln of these dimensions will contain—

4:7,000 1

-in. bore pipe tiles.“

32,500 14;

3,

,’

20,000 1-3;i

,3

9’

12,000 2-;—
and the lastomentioned size will hold the same number of the inch

3’

'de of them, making therefore 24,000 of both sizes. In good

pipes ins1

261 APPENDIX.

Fig. 4.

 

 

 

Elevation.

 

 

 

weather this kiln can be ﬁlled, burnt, and discharged once every
night; and ﬁfteen kilns may be obtained in a good season, produci
705,000 1-in. pipe tiles.
Or 487,500 1%
Or 300,000 1%;-
and so on in proportion for other sizes.

3, 3’

,3 ,,

“ N.B.—If a kiln of larger diameter be built, there must be ‘
ﬁre-holes, and additional shed room.

APPENDIX. 26]

“ 5th Point. Cost of forming the establishment.

The price charged by Messrs. Cottam and Hallen for the machine,
with its complement of dies,s .3 £25

Price of pug- -mill . . . . . . . . . 10
Cost of erecting kiln . . . . . . . . . . 5
Cost of sheds, straw . . . . . . . . . . 10

60

(The latter item presumes that the farmer has hurdles of his own.)

“ 6th Point. Cost of tiles when ready for sale.

“ As this must necessarily vary with the cost of the fuel, rate of
wages, easy or difﬁcult clay for working, or other local peculiarities,
1 can only give the cost of tiles as I have ascertained it here accord-
ing to our charges for fuel, wages, &c., 850. Our clay is strong, and
has a mixture of stones in it, but the machine is adapted for working
any clay when properly prepared.

“ It requires 2 tons 5 cwt. of good coals to burn the above kiln
full of tiles. Coals are charged here at £1 83. per ton, or 1,000 brush
faggots will effect the same purpose, and cost the same money; of
course some clays require more burning than others; the stronger
the clay the less fuel required.

“ The cost of making, the sale prices, and number of each sort that
a waggon with four horses will carry, are as follows :—

Cost. Sale Price. Waggon

s. d. .9. holds—

l-in. pipe tiles ..... 4 9 per1,000 12 . . . 8,000

,, ..... 6 0 ,, 14 . . . 7,100

1% ,, ..... 8 0 ,, 16 . . . 5,000

2; ,, ..... 10 0 ,, 20 . . . 3,500

,, ..... 12 0 ,, 24 . . . 3,000

Elliptical tiles . . . . ........ 24] 0 000
Soles. . . . ............ 10]“ ' ' "

“ All these tiles exceed a foot in length when burnt.

“ The cost price alone of making draining tiles will be the charge
to every person making his own tiles for his own use. If he sell them,
a higher price must, of course, he demanded to allow for some proﬁt,
for credit more or less long, for bad debts, goods unsold, &c. &c.;
but he who makes his own saves all expense of carriage, and, as his
outlay will not exceed £50, the interest on that sum is too triﬂing to
ac regarded, and he has. no additional rent to pay ;. and after he has
made as many tiles as he wants, his machine and pug-mill will be
as good as ever, with reasonable care, and will fetch their value ”

APPENDIX II.

THE SCIENCE on BRICKMAKING.

IT has been said by the author of this volume, in his preface, that
the science of brickmaking has yet to be formed and written.

This is no doubt in one sense true, though it must be remarked
that, inasmuch as the art of the brickmaker is to be Vlewed in its
chemical and physical relations as only the humblest branch of that
of the potter or porcelain manufacturer, the saying so is not to dis-
credit the vast and wide-spread importance of exact knowledge to
the brickmaker, nor of the value of his universally-diffused and indis-
pensable art.

The manufacture of pottery, in all its branches, having been the
subject of lengthened and important scientiﬁc labours at the hands
of successive able men of science, amongst whom are Réaumur,
Bottcher, Brongniart, Malaguti, and Salvetat, as well as of the
tentative and technological labours of innumerable manufacturers,
amongst whom Cookworthy, Chaﬁ'ers, Wall, Wedgwood, Minton,
and others stand pre-eminent, in England alone, it cannot be said
that pottery in general is devoid of a formed and established science,
though very much remains to be discovered over its wide domain of
theory and practice. This being so, and very much of the science of
the porcelain manufactory being directly applicable and available in
the brick-ﬁeld (if indeed the brickmaker himself possess the requisite
foundation in general scientiﬁc education, especially in chemistry and
physics), it is only true in one sense that no science of brickmaking
yet exists, namely, in the sense that the knowledge we already possess
of the science of the ceramic arts has not yet been systematised
and applied in a special manner to the brickmaker’s art. To attempt
to supply this want in the present little volume is impossible.
Three such volumes would scarcely afford sufﬁcient space to treat of
the science of brickmaking in a systematic and complete manner.

APPENDIX. 263

Still it seems undesirable that in an elementary outline of this art
so little should have been given in the original text, even as a sketch,
of some salient points which such science presents. We shall attempt
this, however incompletely.

The brickmaker deals with natural clays only, the constitution of
which, when more or less ascertained in respect to his object, he may
modify by the addition of other mineral bodies, such as sand, ashes,
&c. ., or by the mechanical extraction of naturla ly- mixed matter, as
sand, pebbles, pyrites, &c., and whose physical qualities he may alter
by mechanical means—grinding, “ slip-washing,” &c.

The choice of a clay that shall answer well for the brickmaker’s use
cannot be made before trial, by any amount of examination, unless
we also possess a chemical analysis of the natural material. Aided
by Mat, it is quite possible upon tempering a ball of the clay, observ-
ing its plasticity and body, and then wetting further a little bit, and
rubbing it between the thumb and the foreﬁnger, to tell with a great
degree of certainty whether it will make good brick or not; either
alone or, as is almost always the case, mixed (and so altered) either
with more sand or more tough clay, and occasionally with coarsely-
ground coal, or breeze, or ashes, &c.

Clays are essentially chemical compounds, and this is true, whether
they be or be not always mere mud from disintegrated rocks, as
some geologists have probably erroneously supposed. They are in fact
true hydrates, and have the general constitution (S O + A12 03) +
H O i R O; the last or accidental base or bases being usually cal-
cium, magnesium, manganese, or iron, or more than one of these;
and they may be divided into four great classes. Pure aluminous
clays and pure magnesian clays, both hydrated: these are rare, the
latter especially so—when indurated, constituting meersc/zaum; and
we may pass them without further notice here. They belong, not
to the brickmaker, but to the porcelain maker.

More widely spread for our use, we have the ferruginous clays,
which have generally this combination (Si O + (A12 03 + Fe.3 03)
i Fe O + N O + K O) + H O; and the calcareous clays (Si O
+(A1203+Fe203) +(CaO + COQ+MgO+CO,) —__1:Fe+
N O + K O) + H 0. Either of these may be mixed with more or
less siliceous sand, and when this is in considerable proportion the
clay is a loam.

At a red heat they lose most of their combined water, losing more
or less hygroscopic water at 212° ; and at a bright yellow or white

264 APPENDIX.

heat, or rather below it, they bake into pottery or brick. And
while many of the clays rich in alumina, silica, and iron do not fuse,
or but very slowly, at the melting-point of cast-iron, most of the cal-
careous clays melt at or below this temperature, or at least agglu-
tinate, assuming the vitreous texture if the heat be long continued.
The following table contains the analysis of ten natural clays,
which gives a pretty clear notion of their usual range of constitu-
tion :—- -
No. 1 is a fuller’s earth, analysed by Dr. Thomas Thomson.
No. 2. A sandy clay, known as the “ ball-clay” of the Potteries,
and used for salt—glazed ware; analysed by Cowper.
No. 3. An ash-white pipe-clay.
No. 4:. A grey-blue clay.
No. 5. A red-brown Glasgow clay.
No. (3. A yellow midland counties clay, used for brick and for
Rockingham pottery.
(All these analysed by Cowper, Phil. Mag. xxxi. p. 435.)
No. 7. A marly English clay; analysed, with the following, by
Berthier.
No. 8. A marl from Vitry, Department of Marne; used in Paris
foundries. '
No. 9. A German clay (Loess of the Rhine), used at Bonn; analysed
by Kjenulf.
No. 10. A loam, analysed by Dr. Ute.

265

APPENDIX.

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266 APPENDIX.

Most of these clays, as found in nature, contain some organic matters
and pebbles of foreign bodies. Unless these are of hard pyrites or
limestone, they are unimportant. Flinty pebbles can generally be
crushed in the clay-mill, or taken out by the screen or sieve.

Clays should, if possible, be delivered into the brick-yard in their
moist natural state; for when they have been permitted to dry up
under a scorching sun or drying wind, they shrink and harden
greatly, and the labour of mixing into good brick “ stuff ” is greater,
and the plastic mixture not as free and nice as before.

Whether a natural clay contains much or little sand naturally is
not important. Every clay requires more or less grinding and mix-
ing; and when sand in a separate form is at hand, it is easiest and
best mixed in such proportions as we may require in the pug-
mill. Clays naturally very rich in lime or in the alkalies (derived
from felspar) are the worst, and in fact a clay that contains more
than about 5 per cent. of lime, at the utmost, is scarcely ﬁtted for
good brickmaking.

If the lime be in the state of carbonate. it is so much the worse;
and if it exist in the state of diﬂ'used limestone or chalk-pebbles,
it is worst of all; for these burn into caustic lime in the brick-kiln,
and then as in after-time the brick absorbs moisture and carbonic acid,
the contained nodules of lime “slack,” and swell in their places,
and so burst the brick to pieces. This is one of the most prevalent
evils of the ill-made bricks which are almost universal in Ireland,
arising from the wide diffusion of limestone gravel in that country,
and the total neglect of grinding or efﬁcient sitting of the clay.

Iron pyrites also is a not uncommon accidental product present in
clays, and unless separated, durable, to say nothing of well-coloured,
brick can never be made of the clay. The pyrites in the kiln is but
partially decomposed: oxide of iron and basic sulphides of iron
remain. When at an after-period these are exposed to air and moisture,
which are absorbed to all depths in brick, oxidation takes place,
sulphate of iron, and frequently also sulphates of lime or alums
(sulphates with double bases), are formed, and, crystallising within the
mass of the brick, split it to pieces.

Common salt is nearly always present in minute quantity in clays;
but when these are taken from the sea-shore, or without or beneath the
sea-washes, or from localities in and about the salt-formations (trias),
they frequently, though in all other respects excellent clays, are
unﬁt for burning into good brick. Chloride of sodiumisnOt only a

APPENDIX. 267

powerful ﬂux when mixed even in very small proportion in clays, but
possesses the prOperty of being volatilized by the heat of the brick-
kiln, and in that condition it carries with it, in a volatile state,
various metallic compounds, as those of iron, which exist in nearly all
clays, and also act as ﬂuxes. The result is that bricks made of such
clays tend to fuse, to warp, twist, and agglutinate together upon the
surfaces long before they have been exposed to a sufﬁcient or suffi-
ciently prolonged heat to burn them to Me core into good hard brick.
“Place bricks” can be made of such clay, but nothing more; and these
are always bad, because never afterwards freefrom hygrometric moisture.

Much carbonaceous matter naturally mixed in clays is also in
certain states objectionable, for when not burnt completely and in the
kiln, which is sometimes with the denser clays difﬁcult, the bricks
are of a different colour in the interior and exterior, and will not bear
cutting for face—work, without spoiling the appearance of the brick—
work. But, worse than this, such bricks when wetted in the wall
occasionally pass out soluble compounds like those absorbed from
soot by the bricks of the ﬂue, and, like those (when used again in new
work), discolour plastering or stucco-work.

The normal constituents of brick clays, then, may be said to be
oxides of the earthy metals, and of a few others, hydrated or not,
with silicic acid, and with small amounts of the alkalies, potash and
soda, also present, together with several other chemical elements
occasionally, but uncertainly, present in minute proportions, with which
we need not concern ourselves. Silicic acid, the great electro-nega-
tive element of clays when combined with the oxides of the earthy
bases, singly or in combination, and exposed to high temperatures
in certain pr0portions, forms glass or enamel (5.6., opaque glasses).
Alumina, though in a less degree, also plays the part of acid towards
the earthy bases, though itself a base with respect to silicic acid.
As regards the oxides of the earthy metals, alumina, lime, magnesia,
&c., these, in accordance with the general law of chemistry, that
bodies in the same range combine, oxides with oxides, &c., also
combine at high temperatures. The most powerful bases, such as
the alkalies or oxides of potassium and of sodium, and the oxides of
iron, combine more readily with silicic acid than do the earthy oxides.
These combinations usually take the form of glass at once, the chief
characteristic of which is the vitreous fracture. When such glasses
are formed with oxides of earthy bases also present, they may assume
crystalline or porcellaneous textures when cooled.

268 APPENDIX.

Porcelain, earthenware, and hard brick (such as the Staﬁ'ordshire
or Flintshire blue bricks) consist in substance of such compound
glasses, diffused throughout their substance uniformly, and binding
together the ﬁnely-diffused particles of the excess of earthy oxides
which are present, or binding together fragmentary bits of uniformly-
diffused silicic acid (sand, ground ﬂint, &c.). The degree of fusi-
bility, or of partial fusibility (agglutination), of any hard-baked brick
depends, then, not only upon the chemical nature of the constituents
of the clay, but upon the proportions in which these are present.

The laws, so far as they have been ascertained, upon which depends
the induration or agglutination by heat of silicic and earthy compounds,
with or without other metallic oxides present, have been elicited
from innumerable (experiments made by ceramic chemists upon very
varied compounds. The phenomena are complex, and in great part
as yet in results only empirical. “7e must refer for these to the
works of Kirwan (“ Mineralogy”), who made very many experiments
upon known combinations of earths when exposed to heat—which
have not in England attracted the attention they deserved—0f Achard,
Brongniart, Bertbier, Lampadius, and various systematic chemical
writers. Silica, alumina, lime, magnesia, are all infusihle, per 86, at
the highest temperature of the porcelain furnace or brick-kiln.

Silicic acid combined with any one earth is less fusible than When
combined with two or more—a proof that not only the silicic acid
combines with each earth, but that these in its presence combine
with each other. Binary compounds of silicic acid and of earths, or
of earths with earths, are most usually infusible except at still higher
temperatures. Compounds of silicic acid with alumina are less
fusible than with lime, and these less so than with the alkalies.

With oxides of iron, silicic acid forms fusible compounds in certain
pr0portions. Magnesia, present in large proportions with either of
the other earths, produces a very diﬁicultly-fusible compound.
Where the silicic acid constitutes the largest proportion of the mass,
it is much more fusible, the bases being two others combined, with or
without alkalies; but if the silicic be in great excess (as in Dinas
ﬁre—brick), or if one or other of the earthy bases be in great excess,
more especially alumina or magnesia, the mass is infusihle in the
kiln. ’

All difIicultly—fusible and pulverulent oxides, as when obtained by
precipitation or by lcvigation, when exposed for some time to a high
temperature, become hard in grain, i.e., indurated more or less, and

APPENDIX. 269

frequently compacted. This is true even of some pure earths, such
as alumina and magnesia, and of nearly all the oxides of the com-
mon metals. Compound oxides, when so exposed to heat, become
still more indurated and compact, though presenting no traces of
agglutination or of fusion. Thus alumina and sesquioxide of iron
become compact. This induration, which is probably rather a change
in the state of molecular aggregation than a chemicalcombination,
but which may be both, is much concerned in the production of
certain qualities of brick; for example, the ﬁne, soft, scarlet cutting
brick—that which was so much employed for ﬁne facing-brick in the
reign of William 111., down to George II.—presents no sign of
agglutination; its constituents have merely become partially indurated
and compacted by the ﬁre. The same is true of many of the light-
coloured bricks now in use.

Two sets of forces, then, are, or may be, in play in the burning
of brick—chemical, and physical or molecular—and must be held
in view by the scientiﬁc brickmaker. To the latter belongs the con-
traction that takes place in the process of ﬁring of all porcelain and
brick. This is greatest with those which contain most alumina, and
with any given specimen, is great not only in proportion to the eleva-
tion of the temperature to which it is exposed, but with the duration
of the time of exposure. It is least in compounds in which the silicic
acid predominates ; and if these pass partially from the crystalline to
the vitreous state of aggregation in the ﬁring, the speciﬁc gravity is
reduced, and the increase of volume may more than equal the contrac-
tion. This is said to be the case with Dinas ﬁre-brick, which, when
highly heated in furnaces built of it, is said to expand.

Were brick constituted of silicic acid and pure clays only, it would
be perfectly white. Bricks, like porcelain, owe their ﬁolour to admixed
metallic oxides—iron in various states of oxidation, from prot-
oxide to sesquioxide, or true chemical combinations of those with
each other, or with the earths themselves, and present in the most
varied proportions, give the Whole range of colouring to bricks, from
the lightest tawny yellow, through full yellow, orange, and to the
rich scarlet of red facing-brick, almost as bright as red-lead. Where
the proportion of oxide of iron present is very large, and it com-
bines with silicic acid to form silicates of iron in or on the brick,
its colour may be dark purple or nearly black, as is the Staffordshire
blue brick; and when a small quantity of oxide of manganese is
present also, the colour is still darkened, and may become quite black.

N3

270 APPENDIX.

For light-coloured bricks the clays must be almost free from iron,
and the latter must not be peroxidised, if possible, in the burning.

For the production of ﬁne red brick, on the contrary, the clays
must be pure, silicic acid not present in excess, oxide of iron
present in abundant proportion, and be fully peroxidised, but must
not be fused into a silicate of peroxide of iron, which is fatal then
both to the texture and colour.

With a given constitution of brick clay, the ﬁnal colour of the
burnt brick depends upon a large number of conditions in the pro-
cess of ﬁring, but mainly upon two—viz., what proportion of air be
admitted to the combustion of the fuel in the kiln—2'.e., whether the
brick be ﬁnally burnt with an oxidising or a deoxidising ﬂame; and
whether or not, or in what proportion, steam or water be present in
the brick, or be brought in the state of vapour in contact with it,
when at elevated temperatures.

Upon an exact knowledge of the effects producible by the play
of these conditions (chiefly) upon the brick in burning rests the
power of the brickmaker to vary or maintain with certainty the good
colour of his ware, or to effect any desirable changes of colour of
which his material may be susceptible.

From this very incomplete sketch it will be seen that brickmaking
is one of the chemico-mechanical arts. Being so, we need scarcely
say that the foundation of all accurate and predictive knowledge of it
must be based upon a sound knowledge of chemistry, and of the laws
of physics, and of heat especially, which is but a branch of the latter.

 

NOTES.
COLOURED BRICKS.

Quite a new branch of trade remains to be Opened in the manufac-
ture of coloured and intaglio bricks, so treated upon the one face-
side only, for both external and internal decorative building.

What may be done in this way may be seen in the Romanesque
domes of the interior covering of the great centre hall of the
museum building of Trinity College, Dublin, erected, a few years
since, by Messrs. Deane and Woodward, architects, in which ordinary
bricks are enamelled 1n brilliant glazed colours, arranged in designs,
upon the exposed face only. /

The German architects are generally 1n advance of us in the art

APPENDIX. 271

of ornamental polychrome brickwork, avoiding those hideous discords
of colour that so offend the eye in many of our London buildings.
See especially for this “Les Constructions en Briqucs, par Louis
Degen, Ingénieur de la Commission Spéciale d’Architecture de la
Ville de Munich,” published in 1865, at Paris. It is marvellous
how much beauty the German brick architects contrive to extract
out of the judiciously-arranged patterns producible from mere common
brick, combined with delicate and beautiful harmonics of tint and
colour.

INFUSOBIAL SILICEOUS MATERIALS, p. 22.

The bricks with which the arching of the ﬂoor of the Museum at
Berlin was built, were made from this infusorial siliceous and micro-
SCOpically porous material, mixed with a certain prOportion of clay
“slip.” Many of the ﬂoor arches of the Pinnacotheca, however,
were constructed of hollow bricks, in the form of frustra of cones,
like ﬂower-pots without bottoms, laid into place with plaster or
cement.

Materials exist in Southern Italy in abundance, as also in many
other places, from which brick of considerable strength and of great
lightness might be readily and cheaply made, viz., either from certain
varieties of volcanic tufa. or from pumice-stone detritus. Of the
former there are suitable beds close to Naples, and elsewhere; of the
latter, inexhaustible supplies exist in the islands of Lipari, Ischia,
and the Ponza Isles, from which it might be brought with facility.

PLASTICITY AND Onoun or CLAY, p. 210.

It is certainly not a general fact that no chemically pure preci-
pitatesare characterised by plasticity. Precipitated carbonate of
lime and white-lead are instances to the contrary; but nearly all
precipitates (especially when rapidly made), though to the eye
amorphous, are in fact crystalline, as Stokes long ago proved micro-
scopically (Dublin Phil. Mag.) ; and crystallised bodies are often not
plastic.

WATER CHEMICALLY COMBINED on MECHANICALLY PRESENT, p. 212.

Water mechanically present is one thing, but water chemically
combined is another. Hydrate of alumina, in which the water plays
the part of base, is a different body chemically from the alumina
dehydrated and separated from its base by heat. The former may

272 APPENDIX.

possess plasticity, the latter not, simply because the former has the
power to retain, intimately diffused throughout its divided mass
water in mechanical mixture, while the latter has not. This diffused
water seems to be the real cause of the plasticity of clay and of all
plastic precipitates; the minute, solid, and rigid particles slip over
each other, as it were upon liquid rollers, just as two plates of glass
or metal slip over each other when a ﬁlm of water is interposed.

INDEX.

Ainslie’s tile machine, 109.
Alumina, use of, in brick-earth, 14.

Blue bricks, 21.

Breeze described, 19 12.; use of, by
London brickmakers, 122; quan-
tity required for 100,000 bricks,
153

Brick buildings, list of early, 4.

Brick-earth, composition of, 14; pre-
paration of, 12.

Brick-kilns, Dutch, described, 48.

Brick-kilns, Hoffmann’s, described,
237—244.

Brickmaking, introduction into Eng—
land by the Romans, 4 ; perfection
of, in time of Henry VIII., 4; the
science of, 262—270.

Brickmaking machines described—
Oates’s, 197; Whitehead’s, 216;
Clayton’s, 219 ; dry-clay machines
—Bradley and Craven’s, 230;
Wilson’s, 232.

Brick-mould described, 28.

Brick—pressing machines described —
Longley’s, 223; Whitehead’s, 226 ;
Bradley and Craven’s, 227; Her—
sey and Walsh’s, 228.

Bricks, coloured, 21, 270.

Bricks, ﬁrst use of, 1; early use of,
by the Dutch, 3; application of,
by the Dutch, 47 ; Roman use of,
3; repeal of the duties on, 8;
schedule of duties on, 7 ; strength
of bricks, 9; comparison of the
strength of hand and machine-
madc bricks, 11; use as a build-
ing material after the ﬁre of Lon-
don, 5.

Bricks, manufacture of, 12; various
modes of manufacturing described,
9; colour of, 20; inﬂuence of the
chemical composition of clay on

./ 246;

 

the colour of bricks, 20; variation
in the weight of, 10; drying, 251;
usual form of, 34; warping of, 33;
weekly produce of a London yard,
37 ; annual manufacture of, in
Great Britain, 8.

Bricks, manufacture of, by machi-
nery, 195 ; list of patents for, 196 ;
machines described, 197 ; strength
of machine-made bricks, 203.

Bricks, Egyptian, 2; two classes of,
19 ; with hollow beds, 34; for
railway work, 26.

Burning, process of, 38.

Chalk, use of, in brickmaking, 18,
121

Cheshunt, brickmaking at, 157.

Clamp-burning described, 38.

Clay, analysis of, 12, 115, 265; com-
position of, 13; properties of, 245;
cannot be produced artiﬁcially,

its plasticity, 248—271 ;
odour of, 250; digging, 22; pro-
cess of preparing, 24; tables of
colour, order of fusibility, &c.,
116.

Clay, dry, machines for working, 230

Clay, machines for preparing, 212—
215; clay crushing and grinding
mill, 212; pug-mill, 27, 213; per-
forated pug-mill, 214 ; portable

- clay-mill, 215; composite machines
for crushing and tempering, 215.

Clgygon’s horizontal brick machine,

Coal, analysis of, 117.

Coal-dust, use of, for making clamp
bricks, 251.

Compound for brick-earth, 14.

Copper moulds, method of using, 30

Cupola, 40.

Cutters, 19.

274

Dense bricks, disadvantages of, 32.

Dinas ﬁre—bricks, 16; manufacture
of, 16.

Drain-pipes, machine for the manu-
facture of, 205; manufacture of,
by machinery, 195.

Drain-tiles, manufacture of, 43 ;
making and burning, 255 ; cost. of,
261; machine for making, 256 ;
cost of, 256; sheds for drying, 257 ;
working the clay, 221.

Drying, process of, described, 35.

Dutch, their early use of bricks, 3.

Dutch bricks, size of, 48.

Dutch method of burning bricks
described, 50.

Dutch tile kilns described, 53; me-
thod of ﬁlling the kilns, 53, 49;
fuel used for, 43.

Dutch tiles, method of making, 52;
method of glazing, 54; mode of
burning, 53.

Encaustic tiles, manufacture of,
189; colours, production of, 191 ;
colouring the tiles, 192; glazing,
193; moulding, 192; plain tiles,
193; slip described, 192.

Fire-bricks, 15 ; value of, 18.

Fire-clays, composition of, 15 ; where
found, 17.

Floating bricks, 21.

Fuel for brickburning, 41.

Fusible earths, 19.

Grinding described, 23.

Holland, manufacture of bricks and
tiles in, 47.

Hollow bricks, form of, 207 ; method
of using, illustrated, 209 ; machine
made, 207 ; Roman use of, 207 ;
use of, in Tunis, 207.

Kiln described, 38; circular, 40;
burning described, 39, 40.

Lincolnshire, brickmaking in, 252 ;
cost of production, 252.

Loams, 14.

London-made bricks, superiority of,
19.

London, brickmaking in, 119; pro-
cess, 138; cost, 159 ; arrangement
of a brickwork, 123 ; cost of ma-
terials, 159; breeze, 155; cost of
breeze, 159 ; brick—earth, 119;

 

IN DEX .

cost of chalk, 159; chalk mill,
164; clamp described, 144; clamp.
ing, 144; foundations of the clamp,
149; upright of ditto, 150; paving,
154; necks, 152; clay described,
120 ; cost of the clay, 159 ; digging
the clay, 138; quantity of clay
required for 1,000 bricks, 139; clay
washing mill, 165 ; use of chuck-
hold, 125; process of ﬁring, 152 ;
cost of fuel, 159; . hacking de-
scribed, 142; hack barrow, 136;
hack ground, 136 ; cost of labour,
162; cost of machinery, 161 ; pro-
cess of malming, 139 ; malm, 120;
hand method of preparing malm,
120; chalk mill described, 123, 164;
clay mill, 123; brick mould, 135;
moulding, 141 ; moulding-stool,
125 ; pallets, 136; pug-mill, 123;
pugging, 141; cost of sand, 159;
scintles, 154; scintling, 143, 149;
process of soiling, 140; use of soil,
122; cost of soil, 159 ; use of stock-
board, 135 ; use of the strike, 136 ;
tempering described, 141; cost of
tools, 161; cost of water, 159;
cost of wood, 159 ; illustrations of
London brickmaking, 164.

London brickmaking: bats, 156 ;
place bricks, 156; burnovers, 153;
burrs, 156; clinkers, 153; cutters,
155; grizzeles, 156 ; malms, 155;
paviours, 156 ; pickings, 156 ;
seconds, 156; shuffs, 156; grey
stocks, 156; rough stocks, 156.

London tile making described, 167;
block board described, 175 ; build-
ings, 170; clay getting, 183; kiln,
183; kilning, 186; illustrations
to, described, 186 ; moulding, 184;
moulding-shed, 173; pantile table,
174; place grounds, 187; plant,
170; roll described, 177; sling,
description of, 170 ; slinging, 184;
splayer, 180; tempering, 184;
thwacker, 183 ; thwacking, 185;
thwacking frame, 180; thwacking
knife, 183; thwacking stool, 183 ;
washing-off frame, 178 ; wash-
ing-off table, 177; weathering,
183.

M arls, 14.

Minton’s encaustic tile manufactory
described, 191.

Moulding, process of, 28.

Moulding table, 29.

INDEX.

Norton coal, analysis of, 117
Nottingham, brickmaking at, 55;

process of, 80' , illustrations of,
described, 92; batting,82; cost of
buildings, 88; burning described,
84; colour, 58; brick-earth, 57;
cost of ditto, 87; brick-moulds,
70 ; bricks, number made per day,
84; size of bricks, 84; brick-yard,
general arrangements, 59 clapper
described, 73; clay digging, 80;
clay mill described, 62; dressing-
bench, 73; dressing described,
82; drying process, 81; ﬂats
described, 71, fuel for the kilns,
86; hovel described, 61, 72; kiln,
75', setting the kiln, 84; cost
of setting and drawing kiln, 86;
cost of labour, 90; cost of land,
87 ; machinery for pressing bricks,
74; cost of machinery, 88; cost
of manufacture, 87 ; moulding de-
scribed, 80; moulding sand, 68;
moulding table, 68; plane de-
scribed, 71; polished bricks, 83;
pressed bricks, 83; tempering de-
scribed, 67,80; cost of tools, 90;
wash mill described, 66.

Oates’s brickmaking machines, 196;
cost of, 204; rate of production,
204.

Ornamental brickwork, examples of,

Pallet moulding described, 29.
Paving tiles, 42.

Pressed bricks, defects of, 33.
Prosser’s method of making bricks,

Pug—mill described, 27

Red bricks, 21.
Refractory clays, composition of, 15.
Rooﬁng tiles, 4

Sand, object of using, 1‘32.

Silica, use of, in brickmaking, 14.

Slip kiln, 32 n.

Slop moulding described, 28.

Soil, term described, 27 n.

Staffordshire brickmaking described,
95, 97 ; buildings described, 97, '
burning, 99; clay, described, 95;
cost of manufacture, 101 ;
99 ; ﬁring, 109 ; illustrations,
102; moulding, 98, 103 ; oven

 

drying, A

I
i
1

275

described, 100; plant described,
97 , rate of product1on 97; rental,
101', speciﬁc gravity of the bricks,
when raw, dried, and burned,
99; tempering, 97; weight of the
lﬁiScks,, 99; arrangements of yard,

Staffordshire tile making, 105 ; class
Of files made, 95; drain tiles,
108, drying, 107; manner of
drying, 111; ﬁring, 113; illustra-
tions to, described, 111; machines
for making, 108; moulding, 107;
moulding bench described, 111;
pug-mill described, 106; setting
described, 108; tempering, 106;
weathering, 106.

Stourbridge clay, 151.

Striking the clay, 28.

Suffolk, brickmaking in, 252 ; burn-
ing, 253; clay, 253; drying, 253;
cost of manufacture, 254; mould-
ing, 253; cost of plant, 254; tem-
pering, 253.

Table of analysis of different kinds
of clay, 13 71.; of analysis of
Norton coal, 117', of analysis of
Staﬁordshire clays, 115; of the
colour of Statfordshire clays, 116;
of the cost of 1 ,000 bricks, London
make, 162; of the cost of London-

made pantiles per 1 ,0,00 187; of
the cost and proﬁt on 1,000 Not-
tingham-made bricks, 91; of the
cost and selling price of Stafford
quarries, dust bricks, and roof
tiles, 111; of the fusibility of
Staffordshire clays, 116; of the
price of ﬁre-bricks of various
manufactures, 18; showing the
proportion of bases contained in
Staffordshire clays, 116; of the
relative value of diﬁerent qualities
of bricks Nottingham make, 91;
of the selling price of London-
made tiles, 187 ; of space required
for each moulding-stool by either
process, 37' , of loss of weight in
drying and burning, 99, of the
strength of hand and machine-
made bricks, 11.

Taxes upon bricks, 6; repeal of the,
8.

Tempering, 25; process described,

Terra- c-otta, early use of, 5.

Tessarae, Minton’ s, 193; Roman

276

process described, 193 , modern
process described, 194.

Tile-burning, 44, 255.

’l‘ile-kilns, construction of, 183, 189,
257 ; in Holland, 63.

Tile-making in England, 42; in
Holland, in Staﬁ'ordshire,
105 ; in London, 167.

Tile-making machines, Ainslie’s, 109;
Ilatcher’s, 256; Page’s,233 ; White-
head’s, 234.

Tile-moulding, 184.

Tileries, London, 167 ; Staﬁordshire,
105.

52;

Tiles, encaustic, manufacture of, 189.

Tiles, manufacture of, 42; schedule
of duties on, 7; cost of manufac-
ture, 186 ; manufacture of, in
Holland. 52.

'i'owcr of Babel, burnt bricks used in
building, 1.

         

 

,— -- * \ .
$26312“ ”r "
an IV EB smt
CALIEORNW

INDEX.

Unsoiling, 22.
Utrecht, principal seat of tile manu-
facture in Holland, 54.

Ventilating bricks, 35.

Washing described, 24.

Weathering, process of, 22.

White bricks, 21.

Whitehead’s brickmaking machine,
216 ; brick-pressing machine, 226;
clay crushing and grinding mill,
212 ; perforated pug-mill, 214;
tile-making machine, 234.

Wi2150n’s dry-clay brick machine,
' 32. .

ngden moulds, method of using,

Yellow bricks, 21.

THE END.

 

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decided to publish them—revised to date—believing that a practical work, suited to
the DAILY REQUIREMENTS OF MODERN ENGINEERS, would befavourably received.

In the Third Edition, the following among other additions have been made, viz.:
Rules for the Proportions of Riveted joints in Soft Steel Plates,the Results of Experi-
ments by PROFESSOR KENNEDY for the Institution of Mechanical Engineers—Rules
forthe Proportions of Turbines—Rules for the Strength of Hollow Shafts of Whit-
worth’s Compressed Steel, 6c.

*3 OPINIONS OF THE PRESS.

“ The author treats every subject from the point of view of one who has collected workshop
notes for application in workshop practice, rather than from the theoretical or literary aspect. The
volume contains a great deal of that kind of information which is gained only by practical experi-
ence. and is seldom written in books."—En_griueer.

“The volume is an exceedingly useful one. brimful with engineers' notes, memoranda, and
rules. and well worthy oi being,r on every mechanical engineer’s bookshelf."—ll{echanz'ml lt’orla'.

“ The information is precisely that likely to be required in practice. . . . The work forms a
desirable addition to the library not only of the works manager, but of anyone connected with
general engineeringf —.'.{z'rz:';1...f you rmzl.

“A formidable mass of facts and ﬁgures, readily accessible through an elaborate index
. . Such a volume will be found absolutely necessary as a. book of reference in all sorts
of 'works‘ connected with the metal trades."—R_y.’a2zd': iron Trades Circular.

“ Brimful of useful information. stated in a concise form, Mr. Hutton's books have met a ress-
ing want among engineers. The book must prove extremely useful to every practic man
possessing a copy."—Pracn‘cal Eng ineer.

Practical Treatise on IlIodern Steam-Boilers.
STEA III-BOILER CONSTR UCTION. A Practlcal Handbook
for Engineers, Boiler-Makers, and Steam Users. Containing a large Col-
lection of Rules'and Data relating to the Design, Construction, and Working
of Modern Stationary, Locomotive, and Marine Steam-BOIIerS. By WALTER
S. 'Hurrox, C.E., Author Of “The Works’ Manager’s Handbook]: &c.
.With upwards of 300 Illustrations. Medium 8vo, 185. cloth. [just published.
”Every detail. both in boiler design and management. is clearly laid before the reader. The
volume Shows that boiler construction has been reduced to the condition of one of the most exact
sciences; and such a book is of the utmost value to the ﬁn rte siéc.’e Engineer and Works'
Manager. “—11/a ring. Engineer.
“ There has longr been room for a modern handbook on Steam boilers ; there is not that room
now. because Mr. Hutton h;s ﬁlled it. It is a thoroughly practical book for those who are occu-
pied in the construction, design, se‘ection, or use of boilers."—£ngz'neer.

“The llIodernised Templeton.”
THE PRACTICAL MECHANIC’S WORKSHOP COM-

PA NION. Comprising a great variety of the most useful Rules and Formulae
in Mechanical Science, with numerous Tables of Practical Data and Calcu-
lated Results for Facilitating Mechanical Operations. By WILLIAM TEMPLE-
TON, Author of “The Engineer's Practical Assistant,” &c. &c. Sixteenth
Edition, Revised, Modernised, and considerably Enlarged by WALTER S.
HUTTON, C.E., Author of “The Works’ Manager’s Handbook," “The
Practical Engineer's Handbook,” &c. Fcap. 8vo, nearly 500 pp., with Eight
Plates and upwards of 250 Illustrative Diagrams, 65., Strongly bound for
workshop or pocket wear and tear. [just published.

*** OPINIONS OF THE PRESS.

“ In its modernised form Hutton‘s ‘ Templeton ' should have a wide sale, for it contains much
valuable information which the mechanic will often ﬁnd of use, and not a few tables and notes which
he might look for in vain in other works. This modernised edition wi be appreciated by all who
have learned to value the original editions Of ‘ Templeton.” —£mrlish Afechanic.

“ It has met with great success in the engineering workshop, as we can testify; and there are
a great many men who. in a great measure, owe their rise in life to this little book.”—Building1\_"ews.

"‘ This familiar textbook—well known to all mechanios and engineers—is of essential service to
the every-day requirements of engineers, millwrights, and the various trades connected with
engineering and building. The new modernised edition is worth its weight in gold."—Bm’lding
News. (Second Noti:e.) ! .

“ This well-known and largely used book contains information, brought up to date, of the
sort so useful to the foreman and draughtsman. So much fresh information has been introduced
as to constitute it pittiicaily a new Lcok. It will be largely used in the ofﬁce and workshop. ’—
.l/ec/zam't‘al 11?)th

 

MECHANICAL ENGINEERING, etc. 3

Stone-working Machinery.
STONE-WORKING MACHINERY, and the Rapid and Economi-
cal Conversion of Stone. With Hints on the Arrangement and Management
of Stone Works. By M. Powrs BALE, M.I.M.E. With Illusts. Crown 8vo, gs.
“Should be in the hands of every mason or student of stone-work."— Colliery Guardian.

“ A capital handbook tor all who mani ulate stone for buildi or ornamental - 'I...
liar/tinny Alerter. p “g purposes.

Pump Construction and Management.
PUMPS AND PUMPING : A Handbook for Pump Users. Being
Notes on Selection, Construction and Management. By M. Powrs BALE,
M.I.M.E., Author of “ Woodworking Machinery,” &C. Crown 8vo, 25. 6d.
“ The matter is set forth as concisely as possible. In fact. condensation rather than dilfuseness
has been the author's aim throughout; yet he does not scEm to have omitted anything likely to be
of use.”—_‘}’ourual cf Gas Lighting.

Milling IlIachi'nery, etc.
MILLING MACHINES AND PROCESSES: A Practical
Treatise on Shaping Metals by Rotary Cutters, including Information on

Making and Grinding the Cutters. By PAUL N. HASLUCK, Author of“ Lathe-
work.” With upwards of 300 Engravings. Large crown 8vo, 125. 6d. cloth.

Titrglzng [just publiShed-
LA TH E - WORK : A Practical Treatise on the Tools, Appliances,
and Processes employed in the A rt 0 Turning. By PAUL N. HASLUCK.
Fourth Edition, Rev1sed and Enlarge . Cr. 8vo, ss. cloth.

“)Vritten by a man who knows, not only how work ought to be done, but who also knows how
to do It. and how to convey his knowledge to others. To all turners this book would be valuable."
—Eng‘ineering.

. “ We can safely recommend the work to young engineers. To the amateur it will simply be

invaluable. To the student it will convey a great deal of useful information."—.Engineer.

S crew-Cutting.
SCREW THREADS : And Methods of Producing Them. With
Numerous Tables, and complete directions for using Screw-Cutting Lathes.
By PAUL N. HAsLucx, Author of “ Bathe-Work,” &c. With Fifty Illustra-
tions. Third Edition, Enlarged. Waistcoat-pocket size, 15. 6d. cloth.
“ Full of useful information, hints and Lpractical criticism. Taps. dies and screwing-tools gene-
rally are illustrated and their action descri ed.”—11[€C/laﬂical lVorld.
“ It is a complete compendium of all the details of the screw-cutting lathe; in fact a multime-
iii-panic on all the subjects it treats upon."—Carpenter and Builder.

Smith’s Tables for Mechanics, etc.
TABLES, MEMORANDA, AND CALCULATED RESULTS,
FOR MECHANICS, ENGINEERS. ARCHITECTS, BUILDERS, etc.
Selected and Arranged by FRANCIS SMITH. Fifth Edition, thoroughly Revised
and Enlarged, with a New Section of ELECTRICAL TABLES, FORMULzE, and
MEMORANDA. ‘Naistcoat-pocket size, 15. 6d. limp leather. [just published.
“ It would, perhaps, be as difﬁcult to make a small pocket-book selection of notes and formulae
to suit ALI. engineers as it would be to make a universal medicine; but Mr. Smith's waistcoat-
pocket collection may be looked upon as a successful attempt.”—Enm‘neer.
"The best example we have ever seen of 250 pages of useful matter packed into the dimen-
slons of a card-case."—Buildz‘ng News. “A veritable pocket treasury of knowledge.”—Iron.

Engineer’s and llIachinist’s Assistant.
THE ENGINEER’S, MILL WRIGHT ’S, and MACHINIST’S
PRACTICAL ASSISTA NT. A collection of Useful Tables, Rules and Data.
By WILLIAM TEMPLETON. 7th Edition, with Additions. I8mo, 23. 6d. cloth.
“ Occupies a foremost place among books of this kind. A more suitable present to an appren-
tice to any of the mechanical trades could not possibly be made."—Bm‘lding News.
M Z A deservedly popular.work, it should be in the ‘ drawcr' of every mechanic.”—English
ec amc.

Iron and Steel.
“ IRON AND STEEL ” : A Work for the Forge, Foundry, Factory,
and Oﬁ‘ice. Containing ready, useful, and trustworthy Information for Iron-
masters; Managers of Bar, Rail, Plate, and Sheet Rolling Mills; Iron and
Metal Founders; Iron Ship and Bridge Builders; Mechanical, Mining, and
Consulting Engineers ; Contractors, Builders, &c. By CHARLES HOARE.
Eighth Edition, Revised and considerably Enlarged. 321120, 65. leather.
" One of the best of the pocket books."—Englislr Alec/tame.
“ We cordially recommend this book to those engaged in considering the details of all kinds of
iron and steel works."——Naz/al Science.

 

4 CROSBY LOCKH'OOD ('9' SON'S CATALOGUE.

 

Engineering Construction.
PA TTERN-M A K IN G : A Practical Treatise, embracmg the Main
Types of Engineering Construction, and includin Gearing, both Hand and
Machine made, Engine Work, Sheaves and Pul eys, Pipes and Columns,
Screws, Machine Parts, Pumps and Cocks, the Moulding of Patterns in
Loam and Greensand, &c., together with the methods of Estimating the
w ‘lgbt of Castings; to which is added an Appendix of Tables for Workshop
Reference. By a FOREMAN PATTERN MAKER. With upwards of Three
Hundred and Seventy Illustrations. Crown 8vo, 7s. 6d. cloth.

. “A well-written technical guide, evidently written by a man who understands and has prac-
tised what he has written about. . . . \Ve c Irdially recommend it to engineering students, young
Journevinen, and others desirous of being initiated into the mysteries of pattcrn~making."-—Bui1der.

" We can conﬁdently recommend this comprehensive treatise.’ —Bnildz'ngNeu’:.

“ Likely to prove a welcome guide to many workmen. especially to draughtsmen who have
lacked a training in the shops, pupils pursuing their practical studies in our factories. and to em-
ployers and managers in engineering works. ‘—Hardware Trade Yoicrnal.

' _“M0re than 370 illustrations help to explain the text, which is, however, always clear and ex-
plicn- thus rendering the work an excellent wade meaem for the apprentice who desires to become
lllaSE‘:: of hm trade."-—1ingli.rh Alechanz'c.

Dictionary of IIIechanical Engineering Terms.
LOCKWOOD’S DICTIONA R Y OF TERMS USED IN THE
I’RA CTICE OF MECHA NICA L ENGINEERING, embracing those current
in the Drawmg Oﬂice, Pattern Shop, Foundry, Fitting, Turning, Smith's and
BOiler Shops, &-:. &c. Comprismg upwards of 6,000 Deﬁnitions. Edited by
A FOREMAN PATTERN-MAKER, Author of “Pattern Making.” Crown 8vo,
7s. 6d. cloth.

"just the sort of handy dictiOnary required by the various trades engaged in mechanical en-
gineering. The practical engineering pupil will find the book of great value in his studies, and
every foreman engineer and mechanic should have a copy."—Bm’/a’i7ig A'erus.

“After a careful examination of the book. and trying all manner of words. we think that the
engineer will here find all he is likely to require. It will be largely used."—Prartz'ral Engineer.

“ One of the most useful books which can be presented to a mechanic or student.”—Englz'sh
flier)”: 11 it.

" Not merely a dictionary, but. to a certain extent, also a most valuable guide. It strikes us. as
a happy idea to combine with a deﬁnition of the phrase useful information on the subject of which
it treats.”—.«lla(/iinn-y Alarl’ef.

“ No word having connection with any branch of constructive engineering seems to be
omitted. No more comprehensive work has been, so far, issued. —/x’uoru/edge.

" We strongly commend this useful and reliable adviser to our friends in the workshop, and to
students every \\ here."—Col/i’ery Guardian.

Steam Boilers.
A TREA TISE ON STEAM BOILERS: Their Strength, Con-
struction, and Economical Working. By ROBERT VVILSON, C.E. Fifth Edition.
Izmo, 65. cloth.
“The best treatise that has ever been published on steam boilers."—Engz‘neer.

“The author shows himself perfect master of his subject, and we heartily recommend all em-
plc ying steam power to possess themselves of the work."——Ryland': Iron Trade Circular.

Boiler Chimneys.
BOILER AND FACTORY CHIAINEYS; Their Draught-Power
and Stability. With a Chapter on Lightning Conductors. By ROBERT
VVILSON, A.l.C.E., Author of “A Treatise on Steam Boilers,” 82c. Second
Edition. Crown 8vo, 3:. 6d. cloth.
“ Full of useful information, deﬁnite in statement, and thoroughly practical in treatment. -
The Lora! Garter-rune”! Chronic/e.
“ A valuable contribution to the iterature of scientific building."—T/ze Builder.

Boiler Making.
THE BOILER-MA KER’S READY RECKONER e ASSIST-
A NT. With Examples of Practical Geometry and Templating, for the Use
of Platers, Smiths and Riveters. By JOHN COURTNEY. Edited by D. K. CLARK,
M.I.C.E. Third Edition, 480 pp., with 140 Illusts. Fcap. 8vo, 7s. half-bound.
“ No workman 0r apprentice should be without this b00k."—-1ran Trade Circular.
“ Boiler-makers will readily recognise the value of this volume. . . . The tables are clearly
printed, and so arranged that they can be referred to with the greatest facility, so that it cannot b.
doubted that they will be generally appreciated and much used."-—Mining‘ yourual.

IVamni/ng. , . '
HEATING BY HOT WATER; With Information and Sug-
gestions on the best Methods of Heating Public, Private and Horticultural
Buildings. By WALTER JONES. With Illustrations, crown 8vo, 25. cloth.

“ weconﬁdently recommend all interested in heating by hot water to secure a copy of thi
valuable little treatise."—— The Plumccr and Decorator. __ 7

MECHANICAL ENGINEERING, etc. 5

 

Steam Engine.
TEXT-BOOK ON THE STEAM ENGINE. With a Sup-
plement on Gas Engines, and PART II. ON HEAT ENGiNES. By T. M.
GOODEVE. M.IA., Barrister-at-Law, Professor or Mechanics at the Nr rmal
School cf Scrence and the R0) a1 School of Mines; Author of “The Princi-
ples of Mechanics," “The Elements of Mechanism,” &c. Eleventh Edition,
Enlarged. With numerous Illustrations. Crown 8vo, 6s. cloth.

. ”Professor Goodeve has given us a treatise on the steam engine which will bear comparison

With anything written by Huxley or Maxwell, and we can award it no higher nraise."—l€n.- hirer.

.“ Mr. Goodevc's text-book is a work of which every young engineer should possess hauselh'

-—Iilmz'ng 70:07:41.

Gas Engines.

ON GAS—ENGINES. Being a Reprint, with some Additions. of
the Supplement to the Text-book on the Steam Engine, by T. M. Gooonva.
M.A. Crown 8vo, 2s. 6d. cloth.
~ " Like all Mr. Goodcve's writings. the present is no exception in point of general excellence.
It is a valuable little volume."—IiIee/iam'ml lt'orld.

Steam.
THE SAFE USE OF STEAM. Containing Rules for Un-

professional Steam-users. By an ENGINEEI. Sixth Edition. Sewed, 64.

“If steam-users would but iearn this little book by heart boiler explosions would become
sensations by their rarity."—Eng/is/z Alec/tunic. '
Reference Boo/c for JiIeehanxical Engineers.

THE MECHANICAL ENGINEER’S REFERENCE BOOK,

for Machine and Boiler Construction. In Two Parts. Part I. GENERAL

ENGINEERING DATa. Part II. BOILER CONSTRUCTION. \Vith 5i Plates and

numerous Illustrations. By NELSON FOLEY, M.I.N.A. Folio, £5 5s. half-

bound. [just published.
Coal and Speed Tables.

A POCKET BOOK OF COAL AND SPEED TABLES, for

Engineers and Steam-users. By NELSON FOLEY, Author of “ Boiler Con-

struction.” Pocket-size, 3s. 6d. cloth; 4s. leather.

“These tables are designed to meet the requirements of every-day use; and may be com-
mended to engineers and users of steam."— Iron.

“This pocket-book well merits the attention of the practical engineer. Mr. Foley has com-
piled a very useful set of tables, the information contained in which is frequently required by
engineers, coal consumers and users of steam."—lrcn and Coal Trades Review.

Fire Engineering.
FIRES, FIRE-ENGINES, AND FIRE-BRIGADES. With
a History of Fire-Engines, their Construction, Use, and Management; Re-
marks on Fire-Proof Buildings. and the Preservation of Life from Fire;
Foreign. Fire Systems, &c. B C. F. T. YOUNG, C.E. With numerous
Illustrations, 544 pp., deiny 8vo, r 45. cloth.
" To such of our readers as are interested in the subject ofﬁres and ﬁre apparatus. we can most
heartily conunend this book.”— Engineering.
“It displays much evidence of careful research; and Mr. Youn has put his facts neatly

together. It is evident enough that his acquaintance with the practical etails of the construction of

Steam ﬁre engines is accurate and full."—Eugimer.

Estimating for Engineering I! ark, (f‘C.
ENGINEERING ESTIMA TES, COSTS AND ACCOUNTS:
A Guide to Commercial Engineering. With numerous Examples of Esti-
mates and Costs of Millwright W'ork, Miscellaneous Productions, Steam
Engines and Steam Boilers; and a Section on the Preparation of Costs
Accounts. By A GENERAL MANAGER. Demy 8vo, 12$. cloth.

“ This is an excel'ent and very useful bonk. covering subject-imtter in constant requisition in
every factory and workshop. . . . The hock is invaluable, not only to the young engineer. but
also to the estimate department of every works."—Bm‘z’d’ar.

“ We accord the work unqualiﬁed praise. The information is given in a plain. straightforward
manner. and hears throughout evidence of the intimate practical acquaintance of the author with
every phrase of commercial engineering."—Il[eclzanz'azl ll’orld.

Elementary Mechamcs. _
CONDENSED MECHANICS. A Selection of Formula, Rules,
Tables, and Data for the Use of Engineering Students, Science Classes, &c.
In Accordance with the Requirements of the Science and Art Department
By W. G. CRAWFORD HUGHES, A.M.I.C.E. Crown 8vo, 25. 6d. cloth.

[first published.

6 CROSBY LOCKWOOD (5' SON ’S CATALOGUE.

 

 

THE POPULAR WORKS 0F MICHAEL REYNOLDS

(“ THE ENGINE DRIVER’S FRIEND”).
Locomotive-Engine Driving.
LOCOMOTI VE-ENGINE DRIVING : A Practical Manual for

Engineers in charge of Locomotive Engines. By MICHAEL REYNOLDS, Member
of the Society of Engineers, formerly Locomotive Inspector L. B. and S. C .
Eighth Edition. Inc uding a KEY TO THE LOCOMOTIVE ENGINE. With Illus-
trations and Portrait of Author. Crown 8vo, 4s. 6d. cloth.

" Mr. Reynolds has supplied a want, and has supplied it well. We can conﬁdently recommend
the book. not only to the practical driver, but to everyone who takes an interest in the performance
of locomotive engines."— Tire Engineer.

“ Mr. Reyno ds has opened a new chapter in the literature of the day. This admirable practical
treatise, of the practical utility of which we have to speak in terms of warm commendation."—
Athemzum.

“ Evidently the work of one who knows his subject thoroughly."— Railway Service Gazette.

“Were the cautions and rules given in the book to become art of the every-day working 01
our engine-drivers, we might have fewer distressing accidents to eplore."-Scotsman.
Stationary Engine Driving.

STA TIONA R Y ENGINE DRI VING : A Practical Manual for
Engineers in charge of Stationary Engines. By MICHAEL REYNOLDS. Fourth
Edition, Enlarged. With Plates and Woodcuts. Crown 8vo, 4s. 6d. cloth.'

“The author is thoroughly acquainted with his Subjects, and his advice on the various pomts
treated is clear and practical. . . . He has produced a manual which is an exceedingly useful
one for the class for whom it is specially intended."—Engineerz’nf.

“ Our author leaves no stone unturn d. He is determined t at his readers shall not only know
something about the stationary engine. ut all about it."—Engineer. .

“An engineman who has mastered the contents of Mr.Reynolds's bookwill require but little actual
experience with boilers and engines before he can be trusted to look after them.”-—Erzgli:}zjl[echanic.

The Engineer, Fireman and Engine-Boy.

THE MODEL LOCOMOTI E ENGINEER, FIREMAN, and

ENGINE-BOY._ Comprising a Historical Notice of the Pioneer Locomotive

Engines and their Inventors. By MICHAEL REYNOLDS. With numerous Illus-

trations and a ﬁne Portrait of George Stephenson. Crown 8vo, 4s. 6d. cloth.

" From the technical knowlenge of the author it will appeal to the railway man of to-day more
forcibly than an thin written b r. Smiles. . . . The volume contains information of atech-
nical kind, and acts t at every river should be familiar with."—£nglish Alec/tank.

“We should be glad to see this book in the possession of everyone in the kingdom who has
ever laid, or is to lay, hands on a locomotive engine."—1ron.

Continuous Railway Brakes;
CONTINUOUS RAILWAY BRAKES: A Practical Treatise on

the several Systems in Use in the United Kingdom; their Construction and
Performance. With copious Illustrations and numerous Tables. By MICHAEL
REYNOLDS. Large crown 8vo, 95. cloth.
“ A pepular explanation of the different brakes. It will be of great assistance in forming public
gpligon, and will be studied With beneﬁt by those who take an interest In the brake.”—£nglis}z
66' (17216.

“Written with sufﬁcient technical detail to enable the principle and relative connection of the

various parts of each particular brake to be readily graspe .”—Meclzanieal World.

Engine-Driving Life.
EN GI N E -DRI VI N G LIFE .- Stirring Adventures and Incidents
in the Lives of Locomotive-Engine Drivers. By MICHAEL REYNOLDS. Second
Edition, With Additional Chapters. Crown 8vo. 25. cloth.
“From ﬁrst to last perfectly fascinating. Wilkie Collins's most thrilling conceptions are thrown
into the shade by true incidents, endless in their variety, related in every page.”—Nort/’1 British Alail.
“An one who wishes to get a real insight into railway life cannot do better than read ‘ Engine-

Driving ife‘ for himself; and if he once take it up he will ﬁnd that the author's enthusiasm and real
love of the engine-driving profession will carry him on till he has read every page.”-Saturday Review.

Pocket Companion for Enginemen.

THE ENGINEMAN’S POCKET COMPANION AND PRA C-
TICAL EDUCA TOR FOR ENGINEMEN, BOILER A TTENDANTS,
AND MECHA NICS.. By MICHAEL REYNOLDS. With Forty-ﬁve Illustra-
tions and numerous Diagrams. Second Edition, Revised. Royal I8mo, 35. 6d.,
strongly bound for pocket wear.
" This admirable work is well suited to accomplish its object, being the honest workmanship of
a competent engineer.”——Glasgow Herald.
“ A most meritorious work, giving in a succinct and ractical form all the information an engine-
mlnder desirous of mastering the scientiﬁc principles 0 his daily calling would require."—Miller.
" A boon to those who are striving to become efficient mechanics."—Daz’1y Chronicle.

 

CIVIL ENGINEERING, SURVEYING, etc. 7

French-English Glossary for Engineers, etc.
A POCKET GLOSSARYofTECHNICAL TERMS: ENGLISH-
FRENCPI, FRENCH-ENGLISH ; withables suitable for the Architectural,
Engineering, Manufacturing and Nautical Professions. By JOHN JAMES
FLETCHER, Engineer and Surveyor. 200 pp. Waistcoat-pocket size, 15. 6d.,
limp leather.
” It ought certainly to be in the waistcoat-pocket of every professional man.”— Iron.
“ It is a very great advantage for readers and correspondents in France and England to have
so large a number of the words relating to engineering and manufacturers collected in a liliputian
volume. The little book will. be useful both to students and travellers.’ —Are}u'trd.

“ The glossary of terms is ve complete, and many of the tables are new and well arranged.
We cordially commend the book.’ —A!echam‘caz W'orld.

Portable Engines.

THE PORTABLE ENGINE ; ITS CONSTR UCTION AND
MA NA GEMENT. A Practical Manual for Owners and Users of Steam
Engines generally. By WILLIAM Dyson WAN SBROUGl-I. With 90 Illustra-
tions. Crown 8vo, 35. 6d. cloth.
“ This is a work of value to those who use steam machinery. . . . Should be read by every-
one who has a steam engine, on a farm or elsewhere."—-Jl{ark Lane Express.
" We cordially commend this work to buyers and owners of steam engines. and to those who
have to do With their construction or use."— Timber 71mm yourzzizl.
“ Such a general knowledge of the steam engine as Mr. \Vansbrough furnishes to the reader
should be acquired by all intelligent owners and others who use the steam engine. "—15’uilding News.
. “ An excellent text-book of this useful form of engine, which describes with all necessary
minuteness the details ofthe various devices. . . ‘ The Hints to Purchasers contain a good deal of
commonsense and practical wisdom."—1§nglis}z Mechanic.

 

 

CIVIL ENGINEERING, SURVEYING, etc.

MR. HUMBER’S IMPORTANT ENGINEERING BOOKS.

The Water Supply of Cztzes and Towns.
A COMPREHENSIVE TREATISE on the lVATER—SUPPLY
OF CITIES AND TOWNS. By VVXLLIAM HUMBER, A-M.Inst.C.E., and
M. Inst. M.E., Author of “Cast and Wrought Iron Bridge Construction,"
&c. &c. Illustrated with 50 Double Plates, 1 Single Plate, Coloured
Frontispiece, and upwards of 250 Woodcuts, and containing 400 pages of
Text. Imp. 4to, £6 65. elegantly and substantially half-bound in morocco.

List of Contents.

I. Historical Sketch of some of the means ‘ Conduits—XIII. Distribution of Water.—XIV.
that have been adopted for the Supply of Water Meters. Service Pipes, and House Fittings.—
to_Cities and Towns.—II. \Vater and the Fo- XV. The Law and Economy of Water Works.
reign Matter usually associated with it.—III. XVI. Constant and Intermittent Supply.—
Rainfall and Evaporation.—IV. Springs and XVII. Description of Plates.-— Ap endices,
the water-bearing formations of various dis- Eving Tables of Rates of Supply, elocities,
tricts.—V. Measmement and Estimation of the c. &c., together with Speciﬁcations of several
ﬂow of \Vater —VI. On the Selection of the \Vorks illustrated, among which will be found:
Source of Supply—VII. Wells—VIII. Reser- Aberdeen, Bideford, Canterbur , Dundee
voirs.—IX. e Puriﬁcation of Water.—X. l Halifax, Lambeth, Rotherham. ublin, and
Pumps.— XI. Pumping Machinery.— XII. , others.

”The most systematic and valuable work upon water supply hitherto produced in English, or
In any other language. . . . Mr. Hiimber‘s work is characterised almost throughout by an
exgaustiveness much more distinctive of French and German than of English technical treatises."
— ngmeer.

“ We can congratulate Mr. Humber on having been able to give so large an amount of infor-
mation on a subject so important as the water suppl of cities and towns. The lates, fifty in
number, are mostly drawings of executed works, and a one would have commande the attention
of every engineer whose practice may lie in this branch of the profession.”—Builder.

Cast and Wrought Iron Bridge Construction.

A COMPLETE AND PRACTICAL TREA TISE ON CAST
AND WROUGHT IRON BRIDGE ' CONSTRUCTION, including Iron
Fotmdatzons. In Three Parts—Theoretical, Practical, and Descriptive. By
WILLIAM HUMBER, A.M.Inst.C.E., and M.lnst.M.E. Third. Edition, Re-
vised and much improved, with 115 Double Plates (20 of which now ﬁrst
appear in this edition), and numerous Additions to the Text. In Two Vols.,
imp. 4to, £6 16s. 6d. half-bound in morocco.

"A very valuable contribution to the standard literature of civil engineering. In addition to
elevations, plans and sections, large scale details are given which very much enhance the 1115th-

‘ tive worth of those illustrations.”—Civil Engineer and Architect’s yonrnal.

“Mr. Humber's stately volumes. lately issued—in which the most important bridges erected

during the last ﬁve 'ears, under the direction of the late Mr. Brunel, Sir W. Cubitt, Mr. Hawk-

shaw, Mr. Page, r. Fowler. Mr. Hemans, and others among our most eminent engineers, are
drawn and speciﬁed in great detail."—Engiueer.

 

8 CROSBY LOCKWOOD (5' SON’S CATALOGUE.

 

MR. HUMBER'S GREAT WORK ON MODERN ENGINEERING.

Complete in Four Volumes, imperial 4to, price £12 125., half-morocco. Each
Volume sold separately as follows :—

A RECORD OF THE PROGRESS OF MODERN ENGINEER-
ING. FIRST SERIES. Comprising Civil, Mechanical, Marine, Hydraulic,
Railway, Bridge, and other Engineering Works, &c. By WILLIAM HUMBER,
A-M.Inst.C.E., &c. Imp. 4to, with 36 Double Plates, drawn to a large scale,
Photographic Portrait of John Hawkshaw, C.E., F.R.S., &c., and copious
descriptive Letterpress, Speciﬁcations, &c., £3 35. half-morocco.

List of the Plates and Diagrams.

Victoria Station and Roof, L. B. & S. C. R. Thames, West London Extension Railway (5
(8 plates); Southport Pier (2 plates); Victoria lates); Armour Plates: Suspension Bridge.
Station and Root, L. C. 8: D. and G. \V. R. (6 harnes (4 plates); The Allen Engine; Sus-
piates); Roof of Cremome Music Hall; Bridge ension Bridge, Avon (3 plates); Underground
over G. N. Railway; Roof of Station, Dutch Railway (3 plates).
Rhenish Rail (2 plates); Bridge over the

" Handsomely lithographed and printed. It will ﬁnd favour with many who desire to preserve
in a permanent form copies of the plans and speciﬁcations prepared for the guidance of the con-
tractors for many important engineering works."—Engineer.

HUMBER’S RECORD OF MODERN ENGINEERING. SECOND
Snares. 'Imp. 4to, with 36 Double Plates, Photographic Portrait of Robert
Stephenson, C.E., M.P., F.R.S., &c., and copious descriptive Letterpress,
Speciﬁcations, &c., £3 35. half-morocco.

List of the Plates and Diagrams.

Birkenhead Docks, Low \Vater Basin (1 and Aber venny Railway; Ebbw Viaduct,
plates); Charing Cross Station Roof, C. C. Merthyr, redegar, and Abe avenny Rail-
Railway (3 plates); Digswell Viaduct, Great way; College “'ood Viaduct, ‘ornwall Rail-
Northem Railway: Robbery Wood Viaduct, way; Dublin \Vinter Palace Roof (3 plates);
Great Northern Railway: Iron Permanent Bridge over the Thames, L. C. & D. Railway
Way; Clydach Viaduct, Merthyr, Tredegar, (6 plates); Albert Harbour, Greenock(4plates).

“ Mr. Humber has done the profession good and true service, by the ﬁne collection of examples
he has here brought before the profession and the public."—Practical Alecham‘c's youmal.

HUMBER’S RECORD OF MODERN ENGINEERING. THIRD
SERIES. Imp. 4to, with 40 Double Plates, Photographic Portrait of J. R.
M‘Clean, late Pres. Inst. C.E., and copious descriptive Letterpress, Speci-
ﬁcations, &c., £3 35. half-morocco. .

List of the Plates and Diagrams.

MAIN DRAINAGE, METROPOLIS.—North Sewer, Reservoir and Outlet (4 lates); Outfall
Side.—Map showing Interception of Sewers; Sewer, Filth Hoist; Sections ofpSewers (North
Middle Level Sewer (2 plates) ; Outfall Sewer, and South Sides).

Bridge over River Lea (3 plates); Outfall Sewer, : THAMES EMBANKMENT.——Section of River
Bridge over Marsh Lane, North “'oolwich Wall; Steamboat Pier, Westminster (2 plates)‘
Railwa ,and Bow and Barking Railwayjunc- Landing Stairs between Charin Cross and

0

tion; utfall Sewer, Bridge over Bow and , \Vaterloo Bridges; York Gate (2p tes); Over-
Barking Railway (3 lates); Outfall Sewer. ;. ﬂowandOutletatSavoyStreetSewer(3plates);
Bridge over East Lon on “'aterworks' Feeder ) Steamboat Pier, \Vaterloo Bridge ( plates);
(2 plates); Outfall Sewer, Reservoir (2 plates); . Junction of Sewers, Plans and Sections;

Gullies, Plans and Sections; Rolling Stock;

Outfall Sewer, Tumbling Bay and Outlet; Out-
Granite and Iron Forts.

fall Sewer, Penstocks. South Side—Outfall
Sewer, Bemiondsey Branch (2 plates); Outfall

" The drawings have a constantly increasing value, and whoever desires to possess clear repre-
sentations of the two great works carried out by our Metropolitan Board will obtain Mr. Humber's
volume."——Engz’uear.

HUMBER’S RECORD OF MODERN ENGINEERING. FOURTH

SERIES. Imp. 4to, with 36 Double Plates, Photographic Portrait of John
Fowler, late Pres. Inst. C.E., and copious descriptive Letterpress, Speci-
ﬁcations, &c., £3 35. half-morocco.

List of the Plates and Diagrams.

Abbey Mills Pumping Station, Main Drain- Mesopotamia; Viaduct over the River W e,
age, Metropolis (4 plates); Barrow Docks (5 Midland Railwayq plates); St. Germans ia.
plates); Manquis Viaduct, Santiago and Val- duct, Cornwall :11 way (2 lates); “’rought.
paraiso Railway (2 lates); Adam's Locomo- Iron Cylinder for Diving Bell; Millwall Docks
tive, St. Helen's 'anal Railway (2 plates); (6 plates); Milroy's Patent Excavator; Metro-
Cannon Street Station Roof, Charing Cross 0 itan District Railway (6 plates); Harbours,
Railway (3 lates) -, Road Bridge over the River orts, and Breakwaters (3 plates .

Moka (2 pates); Telegraphic Apparatus for

“ We gladly welcome another year's issue of this valuable publication from the able pen 0!
Mr. Humbcr. The accuracy and general excellence of this work are well known, while its useful-
ness in giving the measurements and details of some of the latest examples of engineering-,as
carried out by the most eminent men in the profession, cannot be too highly prized."—Am'zan.

CIVIL ENGINEERING, SURVEYING, etc. 9

MR. HUMBER'S ENGINEERING BOOKS—continued.

Strains, Calculation of.
A HANDY BOOK FOR THE CALCULATION OF STRAINS
IN GIRDERS AND SIMILARSTR UCTURES,AND THEIR STRENGTH.
Consrsting of Formulae and Corresponding Diagrams, with numerous details
for Practical Application, &c. By VVrLLIAM HUMBER, A-M.lnst.C.E., &c.
Fifth Edition. Crown 8vo, nearly 100 Woodeuts and 3 Plates, 7s. 6d. cloth
“ The formulae are neatly expressed, and the diagrams gcod."—Atlzemzum.
" \Ve heartily commend this really handy book to our engineer and architect readers."—Eng-
(is): Alec/tank.

Barlow’s Strength of III aterials, enlarged by H umber
A TREA TISE ON THE STRENGTH OF MATERIALS :

with Rules for Application in Architecture, the Construction of Suspension
Bridges, Railways, &c. By PETER BARLOW, F.R.S. A New Edition, revised
by his Sons, P. W. BARLOW, F.R.S., and W. H. BARLOW, F.R.S. ; to which
are added, Experiments by HODGKINSON, FAIRBAIRN, and KIRKALDY; and
Formulas for Calculating Girders, &c. Arranged and Edited by W. HUMBER,
A—M.Inst.C.E. Demy 8vo, 400 pp., with 19 large Plates and numerous Wood-
cuts, 185. cloth. \ .
“ Valuable alike to the student, tyre, and the experienced practitioner, it will always rank in
future, as it has hitherto done, as the standard treatise on that particular subject."-—I£ngineer.
“ There is no greater authority than Barlow."—B:¢z‘ldz'ng News.
“ As a scientiﬁc Work of the ﬁrst class. it deserves a foremost place on the bookshelves of every
civil engineer and practical mechanic."——Englz'slz Mechanic.

 

 

Trigonometrical Surreying.
AN OUTLINE OF THE METHOD OF CONDUCTING A
TRIGONOMETRICA L SUR VE Y, for the Formation of Geographical and
Topographical Maps and Plans, Military Reconnaissance, Levelling, ('76., with
Useful Problems, Formulas, and Tables. By Lieut.-General FROME, R.E.
Fourth Edition, Revised and partly Re-written by Major General Sir CHARLES
VYAEREN, G.C.M.G., R.E. With 19 Plates and 115 Woodcuts, royal Svo, 165.
0 0t .
“The simple fact that a fourth edition has been called for is the best testimony to its merits.
No words of praise from us can strengthen the position so well and so steadily maintained by this
work. Sir Charles Warren has revised the entire work, and made such additions as were necessary
to bring every portion of the contents up to the present date.”—Broad Arrow.

Field Fortiﬁcation. .
A TREA TISE ON FIELD FORTIFICA TION, THE ATTA CK
OF FORTRESSES, MILITA RY MINING, A ND RECONNOITRING. By
Colonel I. S. MACAULAY, late Professor of Fortiﬁcation in the R.M.A., VVooi-
wich. Sixth Edition, crown Svo, cloth, with separate Atlas of r2 Plates, 125.
Oblique Bridges.
A PRACTICAL AND THEORETICAL ESSA Y ON OBLIQ UE
BRIDGES. With 13 large Plates. By the late GEORGE WATSON BUCK,
M.I.C.E. Third Edition, revised by his Son, J. H. WATSON BUCK, M.I.C.E.;
and with the addition of Description to Diagrams for Facilitating the Con-
sltrugtion of Oblique Bridges, by W. H. BARLOW, M.I.C.E. Royal 8vo, 125.
0 0t .
“ The standard text-book for all engineers regarding skew arches is Mr. Buck's treatise, and
w0uld be impossible to consult a better."-—F.ngineer.
“Mr. Buck's treatise is recognised as a standard text-book, and his treatment has divested the
subject of many of the intricacies supposed to belong to it. As a guide to the engineer and archi-
tect, on a confessedly difﬁcult subject, Mr. Buck's work is unsurpassed."———Bm‘1ding News.

Water Storage, Conveyance and Utilisation.
lVA TER ENGINEERING .' A Practical Treatise on the Measure-

ment, Storage, Conveyance and Utilisation of Water for the Supply of Towns,
for Mill Power, and for other Purposes. By CHARLES SLAGG, Water and
Drainage Engineer, A.M.Inst.C.E., Author of “ Sanitary Work in the Smaller

Towns, and ithllages,” &C. With numerous Illusts. Cr. 8vo, 7s. 6d. cloth.

“As a small practical treatise on the water supplv of towns, and on some applications of
mater-power, the work is in many respects excellent."—-I:‘ng1‘neering. _

" The author has collated the results deduced from the experiments of the most eminent
authorities. and has presented them in a compact and practical form, accompanied by very clear
and detailed explanations. . The application of water as a motive power is treated very
carefully and exhaustively."—Bm‘lder. _ . .

“For anyone who desires to begin the study of hydraulics with a consrderation of the practical
applications of the science there is no better guide."—Arc/zz'rect.

IO CROSBY LOCKWOOD (So SON '5 CATALOGUE.

 

Statics, Graphic and Analytic.
GRAPHIC AND ANALYTIC STA TICS, in their Practical Appli-

cation to the Treatment of Stresses in Roofs, Solid Girders, Lattice, Bowstring
and Suspension bridges, Braced Iron A rches and Piers, and other Frameworks.
By R. HUDSON GRAHAM, C.E. Containing Diagrams and Plates to Scale.
With numerous Examples, many taken from existing Structures. Specially
arranged for Class-work in Colleges and Universities. Second Edition, Re-
vised and Enlarged. 8vo, 16s. cloth.
E“ Mr. Graham's book will ﬁnd a place wherever graphic and analytic statics are used or studied.”
— 7! ﬁt”.
‘tg’I‘he work is excellent from a practical point of view, and has evidently been prepared with
much care. The directions for working are ample. and are illustrated by an abundance of well-
selected examples. It. is an excellent text-book for the practical draughtsman.”——At}zmaum.

Student’s Text-Boole on Surveying.
PRACTICAL SURVEYING: A Text-Book for Students pre-

paring for Examination or for Survey-work in the Colonies. By GEORGE
W. USILL, A.M.I.C.E., Author of “The Statistics of the Water Supply of
Great Britain.” With Four Lithographic Plates and upwards of 330 Illustra-
tions. Second Edition, ReVised. Crown 8vo, 7s. 6d. cloth.

“The best forms of instruments are described as to their construction, uses and modes of
employment, and there are innumerable hints on work and equipment such as the author, in his
experience as surveyor,draughtsm1n and teacher, has found necessary, and which the student
in his inexperience will ﬁnd most scrviceable.”—En_grineer. .

. “ The latest treatise 'm the English language on surveying, and we have no hesitation in say-
ing that the student will ﬁnd it a better guide than any of its predecessors . . . 3 .
Deserves to be recognised as the ﬁrst book which should be put in the hands of a pupil of ClVll
Engineering, and every gentleman of education who sets out for the Colonies would ﬁnd it well to
have a c0py.”-—-A rc/u'tect.

“ ve useful, practical handbook on ﬁeld practice. Clear, accurate and not too con-
densed.”— ourualq/Educatz'on.

Survey Practice.
AID T0 S U R VE Y PRACTICE, for Reference in Surveying, Level-
ling, and Setting-out ; and in Route Surveys of Travellers by Land and Sea.
With Tables, Illustrations, and Records. By Lowrs D‘A. JACKSON,
A.M.I.C.E., Author of “ Hydraulic Manual,” “Modern Metrology,” 810.
Second Edition, Enlarged. Large crown 8vo, 125. 6d. cloth.
“Mr. Jackson has produced a valuable vade-memm for the surveyor. We can recommend

this book as containing an admirable supplement to the teaching of the accomplished surveyor."—
Atheneum.

" As a text-book we should advise all surveyors to lace it in their libraries, and study well the
matured instructions afforded in its pages."——Co[lz‘er_y (grardz'an.

“ The author brings to his work a fortunate union of theory and practical experience which,
aided by a clear and lucid style of writing, renders the book a very useful one."—Bui.’der.

Surveying, Land and IlIarine.
LAND AND MARINE SURVEYING, in Reference to the Pre-

paration of Plans for Roads and Railways; Canals, Rivers, Towns’ Water
Supplies; Docks and Harbours. With Description and Use of_ Surveying
Instruments. By W. D. HASKOLL, C.E., Author of “Bridge and Viaduct Con-
struction,” &c. Second Edition, Rev-ised, With Additions. Large cr.8vo, 95. cl.

“ This book must prove of great value to the student. 'We have no hesitation in recommend-
ing it, feeling assured that it will more than repay a careful study."——Illcelzam'me‘ Il'crld.

“ A most useful and well arranged book for the aid of a student. We can strongly recommend
it as a carefully-written and valuable text-book. It enjoys a well-deserved repute among surveyors."
——Bm'lder.

“ This volume cannot fail to prove of the utmost practical utility. It may be safely recommended
to all students who aspire to become clean and expert surveyors."—ll1i2:ing Yournal.

Tunnelling.

PRA CTICA L TUNNELLING. Explaining in detail the Setting-
out of the works, Shaft-sinking and Heading-driving, Ranging the Lines and
Levelling underground, Sub-Excavating, Timbering, and the Construction
of the Brickwork of Tunnels, with the amount of Labour required for, and the
Cost of, the various portions of the work. By FREDERICK W. Sums, F.G.S.,
M.Inst.C.E. Third. Edition, Revised and Extended by D. KINNEAR CLARK,
M.Inst. C.E. Imperial 8vo, with 21 Folding Plates and numerous Wood
Engravings, 30$. cloth.

“ The estimation in which Mr. Simms's book on tunnelling has been held for over thirty years
cannot be moretruly expressed than in the words ofthe late Prof. Rankine :—‘ The best source of in-
formation on the subject of tunnels is MLRVV. Simms's work on Practical Tunneliing.‘ Z’—Ar(}zitect.

“ It has been regarded from the ﬁrst as a text book of the subject. . . . Mr. Clarke has added
immensely to the value of the book.”—£1:gineer. .

CIVIL ENGINEERING, SURVEYING, etc. II

 

Levelling.
A TREATISE ON THE PRINCIPLES AND PRACTICE OF
LE YELLING. Showing its Application to purposes of Railway and Civil
Engineering, in the Construction of Roads; with Mr. TELI-‘ORD'S Rules for the
same. ByFREDERICK W. SIMMS,F.G.S., M.Inst.C.E. SeventhEdition, with
the addition of LAw’s Practical Examples for Setting-out Railway Curves, and
TRAUTWINE’S Field Practice of Laying-out Circular Curves. With 7 Plates
and numerous Woodcuts, 8vo, 85. 6d. cloth. *** TRAUTWINE on Curves

may be had separate, 55.
“ The text-book on levelling in most of our engineering schools and colleges."—Engz'mer.
" The ublishers have rendered a substantial service to the profession, especially to the younger
members, y bringing out the present edition of Mr. Simms’s useful work."—Engimeﬁng.

H cat, Expansion by.
EXPANSION OF STRUCTURES BY HEAT. By JOHN
KEILY, C.E., late of the Indian Public Works and Victorian Railway Depart-
ments. Crown 8vo, 35. 6d. cloth.
SUMMARY OF CONTENTS.

Section I. FORMULAS AND DATA. Section VI. MECHANICAL FORCE or

Section II. METAL BARS. EAT.

Section III. SIMPLE FRAMES. Section VII. WORK OF EXPANSION

Section IV. COMPLEX FRAMES AND AND CONTRACTION.
PLATES. Section VIII. SUSPENSION BRIDGES.

Section V. THERMAL CONDUCTIVI’I‘Y. Section IX. MASONRY STRUCTURES.

“The aim the author has set before him, viz., to show the effects of heat upon metallic and
other structures, is a laudable one, for this is a branch of physics upon which the engineer or archi-
tect can ﬁnd but little reliable and com rehensive data in books."—Bm'lder.

“Whoever is concerned to know t e effect of changes of temperature on such structures as
suSpension bridges and the like, could not do better than consult Mr. Kelly's valuable and handy
exposition of the geometrical principles involved in these changes."—5cot:man.

Practical Mathematics.

MA THEMA TICS FOR PRA CTICA L MEN: Being a Common-
place Book of Pure and Mixed Mathematics. Designed chieﬂy for the use
of CiVil Engineers, Architects and Surveyors. By OLINTHUS GREGORY,
LL._D., F.R.A.S., Enlarged by HENRY LAW, C.E. 4th Edition, carefully
Re_v15ed b J. R. YOUNG, formerly Professor of Mathematics, Belfast College.
With 13 P ates, 8vo, £1 Is. cloth.

.“ The engineer or architect will here ﬁnd read to his hand rules for solving nearly every mathe-
matical difﬁculty that may arise in his practice he rules are in all cases explained by means of
examples, in which every step of the process is clearly worked out."—Builder.

“ One of the most serviceable books for practical mechanics. . . It is an instructive book for
the student, and a text-book for him who, having once mastered the_subjects it treats of, needs
occasmnally to refresh his memory upon them."—-Bu£1dz'ng News.

Hydraulic Tables.

HYDRA ULIC TA BLES, CO-EFFICIENTS, and FORMULAE

for ﬁndingfhe Discharge of Water from Oriﬁces, Notches, Weirs, Pages, and

Rivers. With New Formulae, Tables, and General Information on ainfall,

Catchment-Basms, Drainage, Sewerage, Water Supply for Towns and Mill
Power. By JOHN _NEVILLE, Civil Engineer, M.R.I.A. Third Ed., carefully
Revised, with conSIderable Additions. Numerous Illusts. Cr. 8vo, I45. cloth.

“ Alike valuable to students and engineers in practice ; its study will prevent the annoyance of
avoidable failures, and assist them to select the readiest means of successfully carrying out any
given work connected with hydraulic engineering.”—l‘llz'm'ng yournal.

“ It is, of all English books on the subject, the one nearest to completeness. . . . From the
good arrangement of the matter, the clear explanations, and abundance of formulae, the carefully
calculated tables, and, above all, the thorough, acquaintance with both theory and construction.
which is displayed from ﬁrst to last, the book w be found to be an acquisition.”—Archz’ted.

Hydraulics.
HYDRA ULIC MANUAL. ConSISting of Working Tables and
Explanatory Text. Intended as a Guide in Hydraulic Calculations and Field
Operations. By LOWIS D'A. JACKSON,_1.XuthOI‘ of “Aid to Survey Practice,"
“Modern Metrology,” &C. Fourth Edition, Enlarged. Large or. 8vo, 165. CI.
“ The author has had a wide experience in hydraulic engineering and has been a careful ob-
server of the facts which have come under his notice, and from the great mass of material at his
command he has constructed a manual which may be accepted as a trustworthy guide to this
branch of the engineer’s profession. We can heartily recommend this volume to all who desire to
be ac uainted with the latest development of this important subject."—Engineeriug.
“ he s andard-work in this department of mechnnics.’ —-Scot:man.
"The Ost useful feature of this work is its freedom from what ls superannuated, and its
thorough adoption of recent experiments; the text is, in fact, in great part a short account of the
great modern experiments."—Naiure.

12 CROSBY LOCKWOOD (’9' SON’S CATALOGUE.

 

Drainage.

ON THE DRAINAGE OF LANDS, TOWNS AND BUILD-
INGS. By G. D. DEMPSE Y, C. E., Author of “The Practical Railway En-
gineer," &c. Revised, with large Additions on RECENT PRACTICE IN
DRAINAGE ENGINEERING, by D. KINNEAR CLARK, M.Inst.C.E. Author of
“Tramways,” “A Manual of Rules, Tables, and Data for Engineers," 810.
Second Edition. Izmo, 55. cloth.

" The new matter added to Mr. Dempsey 5 excellent work 15 characterised by the comprehen-
sive grasp and accuracy of detail for which the name of Mr. D. K. Clark 15 a sufficient voucher.‘ —
Atlzemtum.

“ As a work on recent practice in drainage engineering, the book is to be commended to all
who are making that branch of engineering science their special study.’ 'o—lr

“ A comprehensive manual 011 drainage engineering, and a useful introduction to the student.
Bur 117mg Drew:

Tramways and their Working.
TRAMWA YS : THEIR CONSTRUCTION AND WORKING.

Embracing a Comprehensive History of the System; with an exhaustive

Analysis of the various Modes of Traction, including Horse-Power, Steam,

Heated \Vater, and Compressed Air; a Description of the Var1et1es of Rolling

Stock; and ample Details of Cost and Working Expenses: the Progress

recently made in'Tramway Construction, &c. 620. By D. KINNEAR CLARK,

M.lnst.C.E. With over 200 Wood Engravings, and I3 Folding Plates. Two

Vols., large crown 8vo, 305.cloth.

" All interested in tram“ .ays must refer to it, as all railway engineers have turned to the author's
work“ Railway \Iachinery.’ ”—Engz'm'er.

“An exhaustive and practical work on tramways in which the history of this kind of locomo-
tion, and a description and cost of the various modes of laying tramways, are to be found.” —
Building Am:

“The best form of_ rails, the best mode of construction, and the best mechanical appliances
are so fairly indicated in the work under review, that any engineer about to construct a tramway
will be enabled at once to obtain the practical information which will be of most service to him.’ —
Athenrzum.

Oblique Arches.

A PRACTICAL TREATISE ON THE CONSTRUCTION OF
OBLI UE ARCHES. By JOHN HART. Third Edition, with Plates. Im-
perial v0, 85. cloth.

Curves, Tables for Setting-out.
TABLES OF TANGENTIAL ANGLES AND MULTIPLES

for Setting-out Curves from 5 to. 200 Radius. By ALEXANDER BEAZELEY,

M. Inst. C. E. Third Edition.Pr1nted on 48 Cards, and sold in a cloth box,

waistcoat- pocket size, 35 6d.

“ Each table is printed on a small card. which. being placed on the theodolite, leaves the hands
free to manipulate t e instrument—no small advantage as regards the rapidity of work.”—Engineer.

“ Very handy; a man may know that all his day's work must fa on two of these cards, which
he puts into his own card-case. and leaves the rest behind."—Atlzemtum.

Earthwork.
EARTHWORK TABLES. Showing the Contents in Cubic
Yards of Embankments, Cuttings, &c., of Heights or Depths up to an average
of 80 feet. By JOSEPH BROADBENT, C.E., and FRANCIS CAMPIN, C.E. Crown
8vo, 5s. cloth.

“The way in which accuracy is attained. by a simple division of each cross section into three
elements, two in which are constant and one variable, is 111gen10us."—Alherzwum.

Tunnel Shafts.
THE CONSTRUCTION OF LARGE TUNNEL SHAFTS : A
Practical and Theoretical Essay By J. H. WATSON BUCK, M.Inst.C.E.,
Resident Engineer, London and North- Western Railway. Illustrated with
Folding Plates, royal SW), 125. cloth.

" Many of the methods given are of extreme practical value to the mason; and the observations
on the form of arch, the rules for ordering the stone, and the construction of the templates will be
found of considerable use. We commend the book to the engineering profession.’ ’——Bu£la’z'ng A’ews.

“ Will be regarded by civil engineers as of the utmost value, and calculated to save much time
and obviate many mistakes.’ '—Col[1'er_y Guardian.

Girders, Strength of.
GRAPHIC TABLE FOR FACILITATING THE COMPUTA-
TION OF THE WEIGHTS OF IVROUGHT IRON AND STEEL
GIRDERS, etc, for Parliamentary and other Estimates. By J. H. WATSON
BUCK, M.lnst.C.E. 011 a Sheet, 25.6d.

CIVIL ENGINEERING, SURVEYING, etc. 13

 

River Engineering.
RIVER BARS: The Causes of their Formation, and their Treat-
ment by“ Induced Tidal Scour; ” with a Description of the Successful Re-
duction by this Method of the Bar at Dublin. By I. J. MANN, Assist. Eng.
to the Dublin Port and Docks Board. Royal 8vo, 75. 0d. cloth.
" We recommend all interested in harbour works-and, indeed, those concerned in the im-

grovements of rivers generally--to read Mr. Mann‘s interesting work on the treatment of river
ars."-—I:'ugiueer.

Trusses.
TRUSSES OF WOOD AND IRON. Practical Applications of

Science in Determining the Stresses, Breaking I'Vez'ghts, Safe Loads, Scantlings,
and Details of Construction, with Complete Working Drawings. By WrLLrAM
GRIFFITHS, Surveyor, Assistant Master. Tranmere School of Science and
Art. Oblong 8vo, 4s. 6d. cloth.
“ This handy little book enters so minutely into every detail connected with the construction of
roof trusses, that no student need be ignorant of these matters."-—Praclieai £2zgi21ccr.

Railway Working. \

SA FE RA IL WA Y WORKING. A Treatise on Railway Acci-

dents: Their Canse and Prevention; with a Description of Modern Appliances

andSystems. By CLEMENT E. STRnTTON, C.E., Vice-President and Con-

sulting Engineer, Amalgamated Socrety of Railway Servants. With Illus-

trations and Coloured Plates. Second Edition, Enlarged. Crown 8vo, 35. 6d.

cloth. [just published.

“ A book for the engineer, the directors, the mana ers; and. in short, all who wish for informa-
tion on railway matters will find a perfect eIleciOpéﬁ ia in ‘ Safe Railway Working. "—Raz’lwa)
Review.

“ We commend the remarks on railway signalling to all railway managers, especially where a
uniform code and practice is advocated."—-Herepath‘: Railway yam-Ital.

“The author may be congratulated on having collected, in a very convenient form, much
valuable information on the principal questions atfecting the safe workirg of railways.”—Rail-
way Engineer.

Field-Book for Engineers.
THE ENGINEER’S, MINING SUR VEYOR'S, AND CON-
TRACTOR’S FIELD-BOOK. Consisting of a Series of Tables, with Rules,
Explanations of Systems, and use of Theodolite for Traverse Surveying and
Plotting the Work with minute accuracy by means of Straight Edge and Set
Square only ; Levelling with the Theodolite, Casting-out and Reducing
Levels to Datum, and Plotting Sections in the ordinary manner; setting-out
Curves with the Theodolite by Tangential Angles and Multiples, with Right
and Left-hand Readings of the Instrument: Setting-out Curves without
Theodolite. on the System of Tangential Angles by sets of Tangents and Oﬁi-
sets ; and Earthwork Tables to 80 feet deep, calculated for every 6 inches in
depth. By W. DAVIS HASKOLL, C.E. With numerous Woodcuts. Fourth
Edition, Enlarged. Crown 8vo, 125. cloth.
“The book is very handy; the separate tables of sines and tangents to every minute will make
it useful for many other purposes. the genuine traverse tables existing all the same."—Athenmmz.
“Every person engaged in engineering ﬁeld operations will estim rte the importance of such a
work and the amount of valuable time which Will be saved by referen:e to a set of reliable tables
prepared with the accuracy and fulness of those given in this volume."—Rail'wa_y News.

Earthwork, Measurement of.
A MANUAL ON EARTHWORK. By ALEX. J. S. GRAHAM,

C.E. With numerous Diagrams. Second Edition. 18mo, 25. 6d. cloth

“A great amount of practical information, very admirably arranged, and available {or rough
estimates, as well as for the more exact calculations required in the engineer's and contractor‘s
oﬁices.”—Artizan.
Strains in Ironwor 7.

THE STRAINS ON STRUCTURES OF IRON WORK; With

Practical Remarks on Iron Construction. By E. W. SHEILDS, M.Inst.C.E.

Second Edition, With 5 Plates. Royal 8vo, 55. clotn.

The student cannot ﬁnd a better little book on this subject."—£ng£neer.

Cast Iron and other JIetals, Strength of.

A PRACTICAL ESSAY ON THE STRENGTH OF CAST
IRON AND OTHER METALS. By THOMAS TREDGOLD, C.E. Fifth
Edition, including Honcxmson’s Experimental Researches. 8vo, 125. cloth.

I4 CROSBY LOCKWOOD (3. SON’S CATALOGUE.

ARCHITECTURE, BUILDING, etc.

Construction.
THE SCIENCE OF BUILDING: An Elementary Treatise on
the Principles of Construction. By E. WYNDHAM TARN, M.A., Architect.
Third Edition, Enlarged, with 59 Engravings. Fcap. 8vo, 4s. cloth.

“ A very valuable book, which we strongly recommend to all students."—-Bzeilder.
“ N o architectural student should be without this handbook."—Architect.

Villa Architecture.
A HANDY BOOK OF VILLA ARCHITECTURE: Being a
Series of Designs for Villa Residences in various Styles. With Outline
Speciﬁcations and Estimates. By C. WICKES, Author of “The Spires and
Towers of England," &c. 61 Plates, 4to, £1 IIS. 6d. half-morocco, gilt edges.
“ The whole of the designs bear evidence of their being the work of an artistic architect, and
they will prove very valuable and suggestive."—Building News.

Text-Boole for Architects.
THE ARCHITECT’S GUIDE: Being a Text-Book of Useful
Information for Architects, Engineers, Surveyors, Contractors, Clerks of
Works, érc. Sc. By FREDERICK ROGERS, Architect, Author Of “Speciﬁca-
tions for Practical Architecture,” &c. Second Edition, Revised and Enlarged.

With numerous Illustrations. Crown 8vo, 6s. cloth.

“As a text-book of useful information for architects, engineers, surveyors, &c., it would be
hard to ﬁnd a handier or more complete little voluIne."—5tarzdard.

“A young architect could hardly have a better guide-book."—Timber Trade: youniae'.

Taylor and Cresy’s Rome.
THE ARCHITECTURAL ANTIQUITIES OF ROME. By
the late G. L. TAYLOR, Esq., F.R.I.B.A., and EDWARD CRESY, Esq. New
Edition, thoroughly Revised by the Rev. ALEXANDER TAYLOR, M.A. (son of
the late G. L. Taylor, Esq.), Fellow of Queen’s College, Oxford, and Chap-
lain of Gray’s Inn. Large folio, with 13c Plates, halt-bound, £3 35.

“ Taylor and Cresy's work has from its ﬁrst publication been ranked among those professional
heels which cannot be bettered. . . . It would be difﬁcult to ﬁnd examples of drawings, even
among those of the most ainstaking students of Gothic, more thoroughly worked out than are the
one hundred and thirty p ates in this volume."—A rchitect.

Linear Perspective.
ARCHITECTURAL PERSPECTIVE: The whole Course and
Operations of the Draughtsman in Drawing a Large House in Linear Per-
spective. Illustrated by 39 Folding Plates. By F. O. FERGUSON. Demy
8V0, 3s. 6d. boards. [just published.

Architectural Drawing.
PRACTICAL RULES ON DRA WING,f0r the Operative Builder
and Young Student in Architecture. By GEORGE PYNE. With 14 Plates, 4to,
7s. 6d. boards.

Sir Wm. Chambers on Civil Architecture.
THE DECORATIVE PART OF CIVIL ARCHITECTURE.
By Sir WILLIAM CHAMBERS, F.R.S. With Portrait, Illustrations, Notes, and
an Examination of Grecian Architecture, by JOSEPH GWILT, F.S.A. Revised
and Edited by W. H. LEEDS, with a Memoir of the Author. 66 Plates, 4to,
2Is. cloth.

House Building and Repairing.
THE HOUSE-O WNER’S ESTIMATOR ; or, What will it Cost
to Buili, Alter, or Repair? A Price Book adapted to the Use of Unpro-
fessional People, as well as for the Architectural Surveyor and Builder. By
JAMES D. SIMON, A.R.I.B.A. Edited and Revised by FRANCIS T. W. MILLER,
A.R.I.B.A. With numerous Illustrations. Fourth Edition, Revised. Crown
8vo, 3s. 6d. cloth.

“ In two years it will repay its cost a hundred times over."—Field.

Cottages and Villas.
COUNTRY AND SUB URBAN COTTAGES AND VILLAS
How to Plan and Build Them. Containing 33 Plates, with Introduction,
General Explanations, and Description of each Plate. By JAMES W. BOGUE,
Architect, Author of “ Domestic Architecture,” &c. 4to, 105. 6d. cloth.

 

 

 

ARCHITECTURE, BUILDING, etc. 15

The New Builder’s Price Book, 1892.
LOCKWOOD’S BUILDER’S PRICE BOOK FOR 1892. A

Comprehensive Handbook of the Latest Prices and Data for Builders,
Architects, Engineers and Contractors. Reconstructed, Re-written and
Further Enlarged. By FRANCIS T. W. MILLER. 700 closely-printed pages,
crown 8vo, 4s. cloth. [just published.
" This book is a very useful one, and should find a place in every English oﬁice connected with

the building and engineering professions."-—lndu:tries.
“This Price Book has been set up in new type. Advantage has been taken of the

transformation to add much additional information, and the volume 15 now an excellent book of
reference."—Arc/tz'tect.

" In its new and revised form this Price Book is what a work of this kind should be—compre-
hensive, reliable, well arranged, legible and well b .u.id.' —Briti.rlt Architect.

“ A work of established reputation."—Athenezmz. ‘

“ This very useful handbook is well written, exceedingly clear in its explanations and great
care has evidently been taken to ensure accuracy."—illorm'ng Advertiser.

Designing, .Measuring, and Valuing.

THE STUDENT’S GUIDE to the PRACTICE of MEASUR-
ING AND VALUING ARTIFICERS’ WOUEKS. Containing Directions for
taking Dimensions, Abstracting the same, and bringing the Quantities into
Bill, w1th Tables of Constants for Valuation of Labour, and for the Calcula-
tion of Areas and Solidities. Originally edited by EDWARD Donson, Architect.
With Additions on Mensuration and Construction, and a New Chapter on
Dilapidations, Repairs, and Contracts, by E. WYNDHAM TARN, M.A. Sixth
Edition, including a Complete Form of a Bill of Quantities. With 8 Plates and
63 Woodcuts. Crown 8vo, 7s. 6d. cloth.

“ Well fulfils the promise of its title-page. and we can thoroughly recommend it. to the class
for whose use it has been compiled. Mr. 'l‘arn‘s additions and revisrons have much increased the
usefulness of the work. and have especially augmented its value to students."—En ineering.

“This edition will be found the most cmnplete treatise on the principles 0 measuring and
valuing artiﬁcers' work that has yet been published."—1>’zeildmg News.

Pocket Estimator and Technical Guide.

THE POCKET TECHNICAL GUIDE, MEASURER AND
ESTIMATOR FOR BUILDERS AND SURVEYORS. Containing Tech-
nical Directions for Measuring Work in all the Building Trades, Complete
Speciﬁcations for Houses, Roads, and Drains, and an easy Method of Estimat-
ing the parts of a Building collecuvely. By A. C. BEATON, Author of
“Quantities and Measurements,” (Ste. Sixth Edition, Revised. With 53
Woodcuts. waistcoat-pocket size, 15. 6d. gilt edges. [just published.
“ No builder. architect. surveyor, or valuer should be without his ' Beaton.’ ’ —Buz‘ldz'ng' News.
"Contains an extraordinary amount of information in daily requisition in measuring and
estimating. Its presence in the pocket will save valuable time and trouble."—Bm‘1ding IVortd.

Donaldson on Speciﬁcations.
THE HANDBOOK OF SPECIFICATIONS; or, Practical

Guide to the Architect, Engineer, Surveyor, and Builder, in drawing up

Speciﬁcations and Contracts for Works and Constructions. Illustrated by

Precedents of Buildings actually executed by eminent Architects and En-

gineers. By Professor T. L. DONALDSON, P.R.I.B.A., &c. New Edition, in

One large Vol., 8vo, with upwards of 1,000 pages of Text, and 33 Plates,

£1 :15. 5d. cloth.

"In this work forty-four speciﬁcations of executed works are given, including the Speciﬁca-
tions for parts of the new Houses of Parliament, by Sir Charles arry, and for the new R0 a1
Exchange, by Mr. Tite, M.P. The latter, in particular, is a very complete and remarka le
document. It embodies. to a great extent, as Mr. Donaldson mentions, ‘the bill of quantities
with the description of the works.’ . . . It is valuable as a. record, and more valuable still as a

book of precedents. . . . Suffice it to say that Donaldson’s ‘Handbook of Specxﬁcations
must be bought by all architects."-—Bui1der.

Bartholomew and Rogers’ Speciﬁcations.

SPECIFICATIONS FOR PRACTICAL ARCHITECTURE.
A Guide to the Architect, Engineer, Surveyor, and Builder. With an Essay
on the Structure and Science of Modern Buildings. Upon the Basis of the
Work by ALFRED BARTHOLOMEW, thoroughly Revised, Corrected, and greatly
added to by FREDERICK ROGERS, Architect. Second Edition, Revised, with
Additions. With numerous Illustrations. medium 8vo, 15$. cloth.

“ The collection of speciﬁcations prepared by Mr. Rogers on the basis of Bartholomew’s work
is too well known to need any recounncndation from us. It is one offlie books with which every
young architect must be equipped ; for time has shown that the specrﬁcatio'is cannot be set aside
through any defect in them.”—A rclzz'tect.

 

16 CROSBY LOCKI'VOOD (5- SON’S CATALOGUE.

 

Building ; Civil and Ecclesiastical.
A BOOK ON BUILDING, Civil and Ecclesiastical, including
Church Restoration ; with the Theory of Domes and the Great Pyramid, 810.
By Sir EDMUND BECKETT, Bart., LL.D., F.R.A.S., Author of “Clocks and
Watches, and Bells,” 810. Second Edition, Enlarged. Fcap. 8vo, 5s. cloth.
“ A book which' is always amusing and nearly always instructive. The style throughout is in
the highest degree condensed and epigrarnmatic. ”—Tz'mes.
Ventilation of Buildings.
VENTILA TION. A Text Book to the Practice of the Art 0]
Ventilating Buildings. With a Chapter upon Air Testing. ByW. P. BUCHAN,
R. P., Sanitary and Ventilating Engineer, Author of “ Plumbing,” &c. With
170 Illustrations. 12mo, 4s. cloth boards. [just published.
The Art of Plumbing.
PLUMBING. A Text Book to the Practice of the Art or Craft of
the Plumber, with Supplementary Chapters on House Dramage, embodying the
latest Improvements. By WILLIAM PATON BUCHAN, R. P., Sanitary Engineer
and Practical Plumber. Sixth Edition, Enlarged to 370 pages, and 380
Illustrations. 12mo, 4s. cloth boards.
” A text book which may be safely put in the hands of every voung plumber, and which will
also be found useful by architects and medical professors. '—l>‘1u‘e/d an
“ A valuable text book and the only treatise which can be rt garded as areally rehable manual
of the plumber‘ 5 art. W—But/dlllg A eds

Geometry for the Architect, Engineer, etc.
PRACTICAL GEOMETRY, for the Architect, Engineer and
Mechanic. Giving Rules for the Delineation and Applicationo of various
Geometrical Lines, Figures and Curves. By E. W. TARN, M. A., Atchitect,
Author of “The Science of Building,” 810 Second Edition. With 172 Illus~
trations, demy 8vo, gs. cloth.

“ No book with the same objects in view has ever been published in which the cleamess of the
rules laid down and the illitStrative diagrams have been so satisfactory."—.Sco.‘smau.

The Science of Geometry.

THE GEOMETRY OF COMPA SSES ; or, Problems Resolved
by the mere Description of Circles, and the use of Coloured Diagrams and
Symbols. By OLIVER BYRNE. Coloured Plates. Crown Svo, 35. 6d. cloth.

“ The treatise is a good one, and remarkable—like all Mr. Byrne's contributions to the Science
of geometry—for the lucid character of1ts teaching."—Bz¢z‘ldz‘ng News.

 

DECORATIVE ARTS, etc.

Woods and lllarbles (Imitation 0]").

SCHOOL OF PAINTING FOR THE IMITATION OF WOODS

AND MARBLES, as Taught and Practised byA. R. VAN DER BURG and P.

VAN DER BURG, Directors of the Rotterdam Painting Institution. Royal folio,

18% by 12} in., Illustrated with 24 full- size Coloured Plates; also 12 plain

Plates, comprising154 Figures. Second and Cheaper Edition. Price £1 115.611.
List of Plates.

 

1. Various Tools required for \Vood Painting
-—2, 3. \Valnut: Preliminary Stages of Graining
and Finished Specimen—4. Tools used for
Marble Painting and Method of Manipulation—
5 ,6 St. Remi Marble: Earlier Operations and
Finished Specimen—7. Methods of Sketching
ditl'crent Grains, Knots. (1'..c—8 9. Ash: Pre-
liminary Stages and Finished Specimen—Io.
Methods of Sketching Marble Grains—11, 12.
Breche Marble: Preliminary Stages of \Vorking
and Finished Specimen—13. Maple. Methods
of Producing the different Grains—14, II: Bird' 5-
eye Maple. Preliminary Stages and inished
Specimen—16. Methods of Sketching the dif-
ferent Species of White Marble—~17, 18. White
Marble: Preliminary Stages of Process and

 

Finished Specimen—19. Mahogany: Specimens
of various Grains and Methods of Mani ulation
——20, 21 Mahogany: EarlierStagesand inished
:Pecime11—22.23.24 SiennaM:arble Varieties
Grain, Preliminary Stages and Finished
ecimen—es, 26, 27. Juniper “’ood: Methods
producing Grain, &c.: Preliminary Stages
and Finished Specimen—28, 29. 3o. Vert de
Mer Marble: \ arieties of Grain and Methods
of Working Unﬁnished and Finished Speci-
mans—31.32. 33. Oak. Varie‘1esofGra1n. Tools
Employ ed, and Methods of Manipulation. Pre-
Iirninary Stages and Finished Specimen—34,
Waulsort Marble: Varieties of Grain, [Pu-
ﬁnished and Finished Specimens.

*9 OPINIONS or THE PRESS.
" Those who desire to attain skill in the art of pain ting 11 oods and marbles 11ill ﬁnd advantage

In cousulting this book. . .
the opportunity to study it. "—Bml.ier.

Some of the Working Men‘s Clubs should give their young men

“ A comprehensive guide to the art. The explanations of the processes, the manipulation and

management of the colours, and the beautiful?
I

student 1» ho aims at making his work a faithfu

executed plates will not be the least valuable to the
ranscript of nature.”—Building News.

DECORATIVE ARTS, m. 17

House Decoration.
ELEMENTARY DECORATION. A Guide to the Simpler

Forms of Everyday Art, as applied to the Interior and Exterior Decoration of
Dlwgllling Houses, &c. By JAMES W. FACEY, Jun. With 68 Cuts. 121110, 25.
c ot imp.

PRACTICAL HOUSE DECORATION : A Guide to the Art of

Ornamental Painting, the Arrangement of Colours in Apartments, and the
principles of Decorative Design. With some Remarks upon the Nature and
Properties of Pigments. By JAMES VVILLIAM FACEY, Author of“ Elementary
Decoration,” &c. With numerous Illustrations. Izmo, es. 6d. cloth limp.

N .B.—The above Two Works together in One Vol., strongly half-bound, 55.

Colour.
A GRAMMAR OF COLOURING. Applied to Decorative

Painting and the Arts. B GEORGE FIELD. \New Edition. Revised, Enlarged,
and adapted to the use 0 the Ornamental Painter and Designer. By ELLIS
A. DAVIDSON. With New Coloured Diagrams and Engravings. Izmo, 3s. 6d.
cloth boards.
“The book is a most useful resume of the properties of pigments."—B:e:‘lder.

House Painting, Graining, etc.
HOUSE PAINTING, GRAINING, MARBLING, AND SIGN
WRITING, A Practical Manual of. By ELLIS A. DAVIDSON. Sixth Edition.
With Coloured Plates and Wood Engravings. Izmo, 6s. cloth boards.

M ;‘ A mass of information, of use to the amateur and of value to the practical man."—£7:glz‘rl:

(C zanzc.

“ Simply invaluable to the youngster entering upon this particular calling, and highly service-
able to the man who is practising it."—Furm'ture Gazette.

Decorators, Receipts for.
THE DECORA TOR’S ASSISTANT: A Modern Guide to De-

corative Artists and Amateurs, Painters, Writers, Gilders, &c. Containing
upwards of 600 Receipts, Rules and Instructions ; with a variety of Informa-
tion for General Work connected with every Class of Interior and Exterior
Decorations, &c. Fourth Edition, Revised. 152 pp., crown 8vo, rs. in wrapper.
“ Full of receipts of value to decorators, painters, gilders, &c. The book contains the gist of
larger treatises on colour and technical processes. It would be diﬂicult to meet with a work so full
of varied information on the painter's art."-—Bm‘ldin_gr News.
“ We recommend the work to all who, whether for pleasure or proﬁt, require a guide to decora-
tion."—Plumoer and Decorator.

Moyr Smith on Interior Decoration.
ORNAMENTAL INTERIORS, ANCIENT AND MODERN.

By J. Morn SMI'IH. Super-royal 8vo, With 32 full-page Plates and numerous
smaller Illustrations, handsomely bound In cloth, gilt top, price 185.

“ The book is well illustrated and handsomely got up, and contains some true criticism and a
good many good examples of decorative treatment."—- The Builder.

“ This is the most elaborate and beautiful work on the artistic decoration of interiors that we
have seen. . . . The scrolls, panels and other designs from the author's own pen are very
beautiful and chaste ; but he takes care that the designs of other men shall ﬁgure even more than
his own."—L1'7/erpool Albion.

“To all who take an interest in elaborate domestic ornament this handsome volume will be
welcome."—Graphic.

British and Foreign Illarbles.

MARBLE DECORATION and the Terminology of British and

Foreign Marbles. A Handbook .for_ Students . .By GEORGE H. BLAGROVE,
Author of “ Shoring and its Application,” &c. With 28 Illustrations. Crown
Svo, 35. 6d. cloth.
“ This most useful and much wanted handbook should be in the hands of every architect and
builder."—Building lVorld. . . .
" It is an excellent manual for students, and interesting to artistic readers generally.“—Samrda_y
Review.
“ A carefully and usefully written treatise ; the work is essentially practical."—Scot.tman.

Marble Working, etc.

IIIARBLE AND MARBLE WORKERS: A Handbook for

Architects, Artists, Masons and Students. By ARTHUR LEE, Author of “ A

Visit to Carrara,” “The Working of Marble,” &c. Small crown 8vo, 25. cloth.

“ A realiy valuable addition to the technical literature of architects and masons."—Bm'lding
Nears.

 

C

I8 CROSBY LOCKWOOD (3' SON ’S CATALOGUE.

 

DELAMOTTE’S WORKS 0N ILLUMINATION AND ALPHABETS.

 

A PRIMER OF THE ART OF ILLUMINATION, for the Use of
Beginners : with a Rudimentary Treatise on the Art, PraCtical Directions for
its exercise, and Examples taken from Illuminated MSS., printed in Gold and
Colours. By F. DELAMOTTE. New and Cheaper Edition. Small 4to, 65. orna-
mental boards.

“ The examples of ancient MSS. recommended to the student, which, with much ood sense,

the author chooses from collections accessible to all, are selected With judgment and owledge,
as well as taste."—At/zenaum.

ORNA MENTAL ALPHA BETS, Ancient and Medieval, from the
Eighth Century, with Numerals,- including Gothic, Church-Text, large and
small, German, Italian, Arabesque, Initials for Illumination, Monograms,
Crosses, &c. &c., for the use of Architectural and Engineering Draughtsmen,
Missal Painters, Masons, Decorative Painters, Lithographers, Engravers,
Carvers, &c. &c. Collected and Engraved by F.DELA.\IOTTE, and printed in
1(Dioloziirs. New and Cheaper Edition. Royal 8vo, oblong, 25. 6d. ornamental

oar s.

“For those who insert enamelled sentences round gilded chalices, who biazon shop legends over
gimp-d335, who letter church walls with pithy sentences from the Decalogue, this book will be use-
u . —. zcmzum.

EXAMPLES OF MODERN ALPHA BETS, Plain and Ornamental ,'
including German, Old English, Saxon, Italic, Perspective, Greek, Hebrew,
Court Hand, Engrossing, Tuscan, Riband, Gothic, Rustic, and Arabesque;
With several Original Designs, and an Analysis of the Roman and Old English
Alphabets, large and small, and Numerals, for the use of Draughtsmen, Sur-
veyors, Masons, Decorative Painters, Lithographers, Engravers, Carvers, &c.
Collected and Engraved by F. DELAMOTTE, and printed in Colours. New
and Cheaper Edition. Royal 8vo, oblong, 25. 6d. ornamental boards.

“There is comprised in it every possible shape into which the letters of the alphabet and

numerals can be formed, and the talent which has been expended in the conception of the various
plain and ornamental letters is wonderful.”—Staudard.

MEDI/E VAL ALPHABETS AND INITIALS FORILLUMI-
NA TORS. By F. G. DELAMOTTE. Containing 2r Plates and Illuminated
Title, printed in Gold and Colours. With an Introduction by J. WILLIS
BROOKS. Fourth and Cheaper Edition. Small 4to, 45. ornamental boards.
“ A volume in which the letters of the alphabet come forth gloriﬁed in gilding and all the colours

of the prism interwoven and intertwined and intermingled.”—Szm.

THE EMBROIDERER’S BOOK OF DESIGN. Containing
Initials, Emblems, Cyphers, Monograms, Ornamental Borders, Ecclesiastical
Devices, Mediaeval and Modern Alphabets, and National Emblems. Col-
lected by F. DELAMOTTE, and printed in Colours. Oblong royal 8vo, 15. 6d.
ornamental wrapper.

”The book will be of great assistance to ladies and young children who are endowed with th
art of plying the needle in this most ornamental and useful pretty work."—Ea:t A nglz‘an T imes.

Wood Carving.

INSTR UCTIONS IN WOOD-CAR VING, for Amateurs ,' \v1th

Hints on Design. By A LADY. With Ten Plates. New and Cheaper Edition.
Crown 8vo, 25. in emblematic wrapper.

“ The handicraft of the wood-carver, so well as a book can impart it, may be learnt from ‘ A
Lady's' publication."—Atlzenamm.

“ The directions given are plain and easily understood.”—Engl£5h Mechanic.

Glass Painting.
GLASS STAINING AND THE ART OF PAINTING 0N

GLASS. From the German of Dr. GESSERT and EMANUEL Orro FROMBERG.
With an Appendix on THE ART OF ENAMELLING. Izmo, 25. 6d. cloth limp.

Letter Painting.
THE ART OF LETTER PAINTING MADE EASY. By

JAMES GREIG BADENOCH. With 12 full-page Engravings of Examples, 15. 6d.
cloth limp.

“ The system is a simple one, but quite original, and well worth the careful attention of letter
painters. It can be easily mastered and remembered."-—Buildz‘ng News.

 

CARPENTRY, TIMBER, sic. ig

‘ CARPENTRY, TIMBER, etc.

Tredgold’s Carpentry, Revised dé' Enlarged by Tarn.
THE ELEMENTARY PRINCIPLES OF CARPENTR Y.
A Treatise on the Pressure and Equilibrium of Timber Framing, the Resist-
ance of Timber, and the Construction of Floors, Arches, Bridges, Roots,
Uniting Iron and Stone with Timber, &c. To which is added an Essay
on the Nature and Properties of Timber, &c., with Descriptions Of the kinds
of Wood used in Building; also numerous Tables of the Scantlings of Tim-
ber for diﬂ'brent purposes, the Speciﬁc Gravities of Materials, &c. B THOMAS
TREDGOLD, OE. With an Appendix of Specimens of Various Roois of Iron
and Stone, Illustrated. Seventh Edition, thoroughly revised and considerably
enlarged by E. WYNDHAM TARN, M.A., Author of “The Science of Build-
ing,” &c. With 61 Plates, Portrait of the Author, and several W’Oodcuts. In
one large vol., 4to, price £1 53. cloth.

"Ought to be in every architect’s and every builder’s librAry.”—Bm'lder.
“A work whose monumental excellence must commend it wherever skilful carpentry is con-

cerned. The author’s princi les are rather conﬁrnTed than impaired by time. The additional
plates are of great intrinsic va ue.”——Buz'lding News.

Woodworking JiIachinery.
WOOD WORKING MACHINERY : Its Rise, Progress, and
Construction. With .Hints on the Management of Saw Mills and the Economi-
cal ConverSion of Timber. Illustratedjwnh Examples of Recent Designs by
leading English, French, and American Engineers. By M. POWIS BALE,
A.M.Inst.C.E., M.I.M.E. Large crown 8vo, 125. 6d. cloth.
" Mr. Bale is evidently an expert on the subject and,he has collected so much information that
his book is all-sufﬁcient for builders and others engaged in the conversion of timber."—Ar hired.
“The most comprehensive com endium of wood-working machinery we have seen. The
author is a thorough master of his su ject."—Building N 70:.
“The appearance of this book at the present time will, we should think. give a consid< rabie
impetus to the onward march of the machinist engaged in the designing and manufacture of

wood-working machines. It should be in the office of every wood-working factory.”-1z‘nglz'.rk
Mechanic.

Saw Mills.
SA W MILLS : Their Arrangement and Management, and the

Economical Conversion of Timber. (A Companion Volume to “ Wood work-
ing Machinery.”) By M. Powrs BALE. With numerous Illustrations. Crow
8vo, 105. 6d. cloth. .
“The administration of a large sawing establishment is discussed, and the subiect examinec
from a ﬁnancial standpoint. We could not desire a more complete or practical treatise."—Buz‘lder.
“We highly recommend Mr. Bale's work to the attention and perusal of all those who are en-
gaged in the art of wood conversion, or who are about building or remodelling saw-mills on im-
proved princ1ples."—Buildz'ng News.

Carpentermg.
THE CA RPENTER’S NEW GUIDE ; or, Book of Lines for Car-
penters; comprising all the Elementary Principles essential for acquiring a
knowledge of Carpentry. Founded on the late PETER NICHOLSON’S Standard
Work. A New Edition, Revised by ARTHUR ASHPITEL, F.S.A. Together
with Practical Rules on Drawing, by GEORGE PYNE. With 74 Plates,
4to, £1 IS. cloth.

Handrailing and Stacrbuzlclzng. .
A PRACTICAL TREA TISE 0N HANDRAILING : Showing ’
New and Sim 1e Methods for Finding the Pitch of the Plank,lDrawing the
Moulds, Beveiiing, Jointing-up, and Squaring the Wreath. ' By GEORGE
COLLINGS. Second Edition, Revised and Enlarged, to which is added A
TREATISE ON STAIRBUILDING. With Plates and Diagrams. izmo, 25. 6d.
cloth limp.
“ Will be found of ractical utility in the execution of this difﬁcult branch ofjoinery.”~—Builder.
" Almost every di cult phase of this somewhat intricate branch of Jomery is elucxdated by the
aid of plates and explanatory letterpress."—Furniture Gazette.

Circular Work.
CIRCULAR WORK IN CARPENTRY AND 3‘OINERY : A
Practical Treatise on Circular Work of Single and Double Curvature. By
GEORGE COLLINGS, Author of “ A Practical Treatise on Handrailing.” Illus-
trated with numerous Diagrams. Second Edition. Izmo, 23. 6d. cloth limp.

“ An excellent example of what a book of this kind should be. Cheap in price, clear in deﬁni-
tion and practical in the examples selected.”—11u£lder.

 

20 CROSBY LOCKWOOD 6' SON ’S CATALOGUE.

 

Timber Illerchant’s Companion.
THE TIMBER MERCHANT’S AND BUILDER’S COM-
PA NION. Containing New and Copious Tables of the Reduced Weight and
Measurement of Deals and Battens, of all sizes, from One to a Thousand
Pieces, and the relative Price that each size bears per Lineal Foot to any
given Price per Petersburg Standard Hundred; the Price per Cube Foot of
Square Timber to any given Price per Load of 50 Feet; the proportionate
Value of Deals and Battens by the Standard, to Square Timber by the Load
of 50 Feet; the readiest mode of ascertaining the Price of Scantling per
Lineal Foot of any size, to any given Figure per Cube Foot, &c. &c. By
WILLIAM Dowsmc. Fourth Edition, Revised and Corrected. Cr. 8vo, 3:. cl.
“We are glad to see a fourth edition of these admirable tables, which for correctness and

simplicity of arrangement leave nothing to be desired."-— Timber Trade: youmal.

" An exceedingly well-arranged, clear, and concise manual of tables for the use of all who buy
or sell timber."—_‘7ourna.’ Ly“ forestry.

Practical Timber IlIerchant.
THE PRACTICAL TIMBER MERCHANT. Being a Guide
for the use of Building Contractors, Surveyors, Builders, &c., comprising
useful Tables for all purposes connected with the Timber Trade, Marks of
Wood, Essay on the Strength of Timber, Remarks on the Growth of Timber,
&c. By W. RICHARDSON. Fcap. 8vo, 3s. 6d. cloth.
”This handy manual contains much valuable information for the use of timber merchants,

builders. foresters, and all others connected with the growth, sale, and manufacture of timber."—
yournal of Forestry.

Timber Freight Book.
THE TIMBER MERCHANT’S, SA W MILLER'S, AND
IMPORTER’S FREIGHT BOOK AND ASSISTANT. Comprising Rules,
Tables, and Memoranda relating to the Timber Trade. By WILLIAM
RICHARDSON, Timber Broker; together with a Chapter on “ SPEEDS or SAW
MILL MACHINERY," by M. POWIS BALE, M.I.M.E., &c. Izmo, 35. 6d. cl. boards.
“A very useful manual of rules, tables, and memoranda relating to the timber trade. We re-

commend it as a compendium of calculation to all timber measurers and merchants, and as supply-
lng a. real want in the trade."——Building News.

Packing-Case IlIakers, Tables for.
PACKING-CASE TABLES; showing the number of Super-
ﬁcial Feet in Boxes or Packing-Cases, from six inches square and upwards.
B W. RICHARDSON, Timbe‘r Broker. Third Edition. Oblong 4to, 35. 6d. cl.

“ Invaluable labour-saving tables."—lronmonzer.
"Will save much labour and calculation."—Grocer.

Superﬁcial Measurement.

THE TRADESMAN’S GUIDE TO SUPERFICIAL MEA-
SUREMENT. Tables calculated from _I to 200 inches in length, by I to 108
inches in breadth. For the use of Architects, Surveyors, Engineers, Timber
Merchants, Builders, &c. By JAMES HAWKINGS. Third Edition. Fcap.,
35. 6d. cloth.

“ A useful collection of tables to facilitate ra id calculation of surfaces. The exact area of any
:surface of which the limits have been ascertaine can be instantly determined. The book will be
'found of the greatest utility to all engaged in building onerations."—S‘cotsman.

“ These tables will be found of great assistance to all who require to make calculations in super-
ﬁcial measurement."—Englz‘siz Alec/tunic.

Forestry. .
THE ELEMENTS OF FORESTRY. Designed to afford In-
formation concerning the Planting and Care of Forest Trees for Ornament or

Proﬁt, with Suggestions upon the Creation and Care of Woodlands. By F. B.
HOUGH. Large crown 8vo, Ios. cloth.

Timber I mporter’s Guide.

THE TIMBER IMPORTER’S, TIMBER MERCHANT’S AND
BUILDER’S STANDARD GUIDE. By RICHARD E. GRANDY. Compris-
ing an Analysis of Deal Standards, Home and Foreign, with Comparative
Values and Tabular Arrangements for ﬁxing Nett Landed Cost on Baltic
and North American Deals, including all intermediate Expenses, Freight,
Insurance, &c. &c. Together with copious Information for the Retailer and
Builder. Third Edition, Revised. Izmo, 23. cloth limp.

“ Everything it pretends to be: built up adually, it leads one from a forest to a treenall, and

throws in, as a inakcweIght, a host of materia concerning bricks, columns, cisterns, &c."—£r:gli':h
Mechanic. .

IlIARINE ENGINEERING, NAVIGATION, etc. 21

 

MARINE ENGINEERING,NAV1GATION, etc.

Chain Cables. "

CHAIN CABLES AND CHAINS. Comprising Sizes and
Curves of Links, Studs, &c., Iron for Cables and Chains, Chain Cable and
Chain Making, Forming and Welding Links, Strength of Cables and Chains,
Certiﬁcates for Cables, Marking Cables, Prices of Chain Cables and Chains,
Historical Notes, Acts of Parliament, Statutory Tests, Charges for Testing,
List of Manufacturers of Cables, &c. &c. B THOMAS W.’I‘RA1LL,F.E.R.N.,
M. Inst. C.E., Engineer Surveyor in Chie , Board of Trade, Inspector of
Chain Cable and Anchor Proving Establishments, and General Superin-
tendent, Lloyd’s Committee on Proving Establishments. With numerous
Tables, Illustrations and Lithographic Drawings. Folio, £2 25. cloth,
bevelled boards.
” It contains a vast amount of valuable information. Nothing seems to be wanting to make it
a complete and standard work of reference on the subject."—.Vaulicaz Magazine.

JlIarine Engineering.
MARINE ENGINES AND STEAM VESSELS (A Treatise
on). By ROBERT MURRAY, C.E. Eighth Edition, thoroughly Revised, with
considerable Additions by the Author and by GEORGE CARLISLE, C.E.,
Senior Surveyor to the Board ofTrade at Liverpool. 121110, 53. cloth boards.
“ Well adapted to give the young steamship engineer or marine engine and boiler maker a.
general introduction into his practical work."—.ilalzanical [I'm-.71.
“ \Ve feel sure that this thoroughly revised edition will continue to be as popular in the future

as it has been in the past, as, for its size, it contains more useful information than any similar
treatise.”—Industrt‘es.

he information given is both sound and sensible, and well qualiﬁer] to direct young sea-
going hands on the straight road to the extra chief‘s certzﬁcate. Most useful to survey ors.
inspectors, draughtsmen, and all young engineers who take an interest in their profession."—

. Glasgow H erala'.
“ An indispensable manual for the student of marine engineermg.”—-L1’7/erpool illereury.

Pocket-Boole for Naval Architects and Shipbuilders.
THE NA VAL ARCHITECT ’5 AND SHIPB UILDER’S
POCKE T-BOOK of Form Hire, Rules, and Tables, and MA RINE ENGINEER’S
A ND SUR VE YOR’S Handy Book of Reference. By CLEMENT MACKROW,
Member of the Institution of Naval Architects, Naval Draughtsman. Fourth
Edition, Revised. With numerous Diagrams, &c. Fcap., 125. 6d. strongly
bound in leather.

“ Will be found to contain the most useful tables and formula: required by shipbuilders, carefully
collected from the best authorities. and put together in a popular and simple t'Orm."—lz‘ngz'ueer.

“ The professional shipbuilder has now, in a convenient and accessible form, reliable data. for
solving many of the numerous problems that present themselves in the course of his work."—lro-n.

“There is scarcely a subject on which a naval architect or shipbuilder can require to refresh
his memory which will not be found within the covers of Mr. Mackrow's book."—Euglz‘sk Mechanic.

Pocket-Boole for Marine Engineers.
A POCKET-BOOK OF USEFUL TABLES AND FOR-
MUL/E FOR MARINE ENGINEERS. By FRANK PROCTOR, A.I.N.A.
Third Edition. Royal 32mo, leather, gilt edges, with strap. 45.

“ We recommend it to our readers as. going far to supply a long-felt want."—~Na'zxal Science.
” A most useful companion to all marine engineers. '-- Un ﬂed Service Gazette.

Introduction to Illarine Engineering.
ELEMENTA R Y ENGINEERING .° A Manual for Young Marine
Engineers and Apprentices. In the Form Of Questions and Answers on
Metals, Alloys, Strength of Materials, Construction and Management of
Marine Engines and Boilers, Geometry, &c. &c. \Vith an Appendix Of Useful
Tables. By JOHN SHERREN BREWER, Government Marine Surveyor, Hong-
kong. Small crown 8vo, 25. cloth. . . .
"Contains much valuable information for the class for whom it is intended, especially in the
clnpters on the management of boilers and engines.”—i\am’iml lifagazirze.
" A useful introduction to the more elaborate text books."—Sro!§mau.
“ To a student who has the requisite desire and resolve to attain a thorough knowledge, Mr.
Brewer Offers decidedly useful help."—-—Atr’zenamn.

Navigation.
PRACTICAL NA VIGA TION. Consisting of THE SAILOR’S
SEA-BOOK, by JAMES GREENWOOD and W. H. ROSSER; together with the
requisite Mathematical and Nautical Tables for the \Vorking of the Problems,

by HENRY LAW, CE, and Professor J. R. YOUNG. Illustrated. Izmo, 7s.
strongly half-bound.

 

22 CROSBY LOCA'WOO-D @- SON ’S CATALOGUE.

 

MINING AND METALLURGY.

 

Metalliferous Illim'ng in the United Kingdom.
BRITISH MINING : A Treatise on the H zstory,Dzscovery, Praetzcal
Development, and Future Prospects of M etalliferous Mines in the Umtecthg-
dom. By. ROBERT HUNT, F.R.S., Keeper of Mining Records; Editor of
“ Ure’s_ Dictionary of Arts, Manufactures, and Mines,’ &c. Upwards of 950
pp., With 230 Illustrations. Second Edition, ReVised. Super-royal 8vo,
£ 2 25. cloth.

“One of the most valuable works of reference of modem times. Mr. Hunt, as keeper of mining
records of the United Kingdom. has had opportunities for such a task not enjoyed by anyone else,
and has evidently made the most of them. . . . The language and style ado ted are good, and
the treatment of the various subjects laborious, conscientious, and scientxﬁc.”— engineering.

"The book is, in fact, a treasure-house of statistical information on mining Subjects, and we
know of no other work embodying so great a mass of matter of this kind. Were t.his_the only
merit of Mr. Hunts volume, it would be sufﬁcient to render it indispensable in this. library of
everyone interested in the development of the mining and metallurgical industries of this country.’
-Al}zeneum.

_ "A mass of information not elsewhere available, and of the greatest value to those who may

be interested in our great mineral industries."—Eugineer. .
“A sound, business-like collection of interesting facts. . . . The amount of information

Mr. Hunt has brought together is enormous. . . . The volume appears likely to convey more

instruction upon the subject than any work hitherto published."—Mz'ning yourual.

Colliery IlIanagement.
THE COLLIER Y MANAGER’S HANDBOOK .' A Compre-
hensive Treatise on the Laying-out and Working of Collieries, Designed as
a Book of Reference for Colliery Managers, and for the Use of Coal-Mining
Students preparing for First-class Certiﬁcates. By CALEB PAMELY, Mining
Engineer and Surveyor; Member of the North of England Institute of
Mining and Mechanical Engineers; and Member of the South Wales Insti-
tute of Mining Engineers. \Vith nearly 500 Plans, Diagrams, and other
Illustrations. Medium 8vo, about 600 pages. Price £1 55. strongly bound.
[just published.
Coal and Iron.
THE COAL AND IRON INDUSTRIES OF THE UNITED
KINGDOM. Comprising a Description of the Coal Fields, and of the
Principal Seams of Coal, with Returns of their Produce and its Distribu-
tion, and Analyses of Special Varieties. Also an Account of the occurrence
of Iron Ores in Veins or Seams; Analyses of each Variety; and a History of
the Rise and Progress of Pig Iron Manufacture. By RICHARD MEADE, Assistant
Keeper of Mining Records. With Maps. 8vo, £1 85. cloth.
“The book is one which must ﬁnd a place on the shelves of all interested In coal and iron
production, and in the iron, steel, and other metallurgical industries.”—Engimer.
“ Of this book we may unreservedly say that it is the best of its class which we have ever met.
. A book of reference which no one engaged in the iron or coal trades should omit from his
library."—1ron and Coal T rades Review.
Prospecting for Gold and other ItIetals.
THE PROSPECTOR’S HANDBOOK: A Guide for the Pro-
spector and Traveller in Search of Metal-Bearing or other Valuable Minerals.
By J. W. ANDERSON, M.A. (Camb.), F.R.G.S., Author of “ Fiji and New
Caledonia." Fifth Edition, thoroughly Revised and Enlarged. Small
crown 8vo, 3s. 6d. cloth.
“ Will supply a much felt want, eSpecially among Colonists, in whose way are so often thrown
many mineralogical specimens the value of which it is difficult to determine."—Engz'nem'.
“How to ﬁnd commercial minerals. and how to identify them when they are found, are the
leading points to which attention is directed. The author has managed to pack as much practical
detail into his pages as would supply material for a book three times its size."—Mz'm'ng yourmzl.

Mining Notes and Formulae.
NOTES AND FORMUL/E FOR MINING STUDENTS. By

JOHN HERMAN MERIVALE. M.A., Certiﬁcated Colliery Manager, Professor of
Mining in the Durham College of Scrence, Newcastle-upon-Tyne. Third
Edition, Revised and Enlarged. Small crown 8vo, 25. 6d. cloth.

“ Invaluable to anyone who is working up for an examination on mining subjects.”—Coal and
Iron Trades Rn'rew.

“ The author has done his work in an exceedingly creditable manner, and has produced a book
that will be of service to students. and those who are practically engaged in mining operations."-
Engineer.

“ A vast amount of technical matter of the utmost value to mining engineers, and of consider-
able intercst to students."—S‘rkoru'master. .

MINING AND METALLURGY. 23

Explosives.
A HANDBOOK 0N MODERN EXPLOSIVES. Being a
Practical Treatise on the Manufacture and _Application of Dynamite, Gun-
Cotton, Nitro-Glycerine and other Exploswe Compounds. Including the
Manufacture of Collodion-Cotton. By M. EISSLER, Mining Engineer and
Metallurgical Chemist, Author of “ The Metallurgy of Gold,” &c. With
about 100 Illustrations. Crown 8vo, 105. 6d. cloth.

“ Useful not only to the miner, but also to officers of both services to whom blasting and the
use of explosives generally may at any time become a necessary auxiliary."—Nature.

“ A veritable mine ofmformation on the subject of explosives employed for military, mining
and blasttng purposes."—Arm_y and Navy Gazette.

“ The book is clearly written. Taken as a whole, we consider it an excellent little book and

one that should be foun of great service to miners and others who are engaged in work requiring
the use of exploswes.”—Atkeneeum.

Gold, Metallurgy of.
THE METALLURGY OF GOLD: A Practical Treatise on the

Metallurgical Treatment of Gold-bearing Ores.. Including the Processes of
Concentration and Chlorination, and the Assaying, Melting and Reﬁning of
Gold. By M. EISSLER, Mining Engineer and Metallurgical Chemist, formerly
ASSistant Assayer of the U. 8. Mint, San FranCisco. Third Edition, Rev1sed
and greatly Enlarged. With 187 Illustrations. Crown 8vo, 125. 6d. cloth.

. _“ This book thoroughly deserves its title of a ‘ Practical Treatise.’ The whole process of gold
milling, from the breaking of the quartz to the assay of the bullion, is described in clear and
orderly narrative and with much, but not too much, fulness of detail."—Saturda_y Rev/zero.

" The work is a storehouse ofinformation and valuable data, and we strongly recommend it to
all professional men engaged in the gold-mining industry."—xllz'm'ng yozermzl

Silver, IlIetallurgy of.
THE META LL URGY OF SILVER : A Practical Treatise on
the Amalgamation, Roasting and Lixiviation of Silver Ores, Including the
Assaying, Melting and Reﬁning of Silver Bullion. By M. EISSLER, Author
of “The Metallurgy of Gold" Second Edition, Enlarged. With 150 Illus-
trations. Crown Svo, 105. 6d. cloth. [just published.
“ A practical treatise, and a technical work which we are convinced will supply a long-felt want
amongst ractical men, and at the same time be of value to students and others indirectly connected
with the mdustriesN—ﬁﬁuing yournal.
“ From ﬁrst_to last the book is thoroughly sound and reliable.”—Collz‘er_y Guardian.

“ For chemists, practical miners. assayers and investors alike, we do not know of any work
on the subject so handy and yet so comprehenswe."—Glasgow Herald.

Silver-Lead, Metallurgy of.
THE METALLURGY OF ARGENTIFEROUS LEAD: A

Practical Treatise on the Smelting of Silver~Lead Ores and the Reﬁning of
Lead Bullion. Including Reports on various Smelting Establishments and
Descriptions of Modern Furnaces and Plants in Europe and America. By
M. EISSLER, M.E., Author of “The Metallurgy of Gold,” &c. Crown 8vo.
400 pp., with numerous Illustrations, 125. 6d. cloth. [just published.

Metalliferous Minerals and Mining.

TREA TISE 0N METALLIFEROUS MINERALS AND
MINING. By D. C. DAVIES, F.G.S., Mining Engineer, &c., Author of “A
Treatise on Slate and Slate Quarrying.” .Illustrated With numerous Wood
Engravings. Fourth Edition, carefully ReVised. Crown 8vo, 12$. 6d. cloth.
“ Neither the practical miner nor the general reader interested in mines can have a better book
for his companion and his guide."—Mz‘uing yournal. . [Miuiﬂg ll’orld.
“ We are doing our readers a service in calling their attention to this valuable work.”—
“ As a history of the present state of mining throughout the world this book has a real value,
and it supplies an actual want."—Aekemzum.

Earthy Minerals and Mining.

A TREATISE' 0N EARTHY (SN OTHER MINERALS AND

MINING. By D. C. DAVIES, F.G.S. Uniform with, and forming a Com-

panion Volume to, the same Author’s “ Metalliferous Minerals and Mining."

With 76 Wood Engravings. Second Edition. Crown 8vo, 125. 6d. cloth.

“We do not remember to have met with any English work on mining matters that cont iins
the same amount of information packed in equally convenient form.”—Arademy.

“ We should be inclined to rank it as among the very best of the handy technical and trades
manuals which have recently appeared."——Brz‘ti.s/z Quarterly Review.

 

24 CROSBY LOCKWOOD L5“ SON‘S CATALOGUE.

 

 

Illineral Surveying and Valuing.

THE MINERAL SUR VEYOR AND VAL UER’S COMPLETE

G UIDE, comprising a Treatise on Improved Mining Surveying and the Valua-

tion of Mining Properties, with New Traverse Tables. Ed WM. Lm'rnnn,

Mining and Civil Engineer. Third Edition, with an Appen ix on “ Magnetic

and Angular Surveying,” with Records of the Peculiarities of Needle Dis-

tunbances. With Four Plates of Diagrams, Plans, &c. 12m0,4s. cloth.

" Mr. Lintern‘s book forms a valuable and thoroughly trustworthy guide."—Iron and Coal
Trades Review.

“ This new edition must be of the highest value to colliery surveyors, proprietors and mana-
gers."—Colh'ery Guardian.

Asbestos and 2' ts Uses.
A SBESTOS .- Its Properties, Occurrence and Uses. With some
Account of the Mines of Italy and Canada. By ROBERT H. Jones. With
Eight Collotype Plates and other Illustrations. Crown 8vo, 125. 6d. cloth.
“ An interesting and invaluable work."-— Colliery Guardian. .
" We counsel our readers to get this exceedingly interesting work for themselves; they Will
ﬁnd in it much that is suggestive, and a great deal that is ofimmediate and practical usefulness."—
Ezer'lder.
“ A valuable addition to the architect's and engineer's 1ibrary."—Bm'ldz'ng News.

Underground Pumping Machinery.
MINE DRAINAGE. Being a Complete and Practical Treatise

on Direct-Acting Underground Steam Pumping Machinery, with a Descrip-

tion of a large number of the best known Engines, their General Utility and

the. SpeCial Sphere of their Action, the Mode of their Application, and

their merits compared With other forms of Pumping Machinery. By STEPHEN

MICHELL. 8vo, I55. cloth.

"Will be highly esteemed by colliery owners and lessees, mining engineers, and students
generally who require to be acquainted with the best means of securing the rainage of mines. “It

a most valuable work, and stands almost alone in the literature of steam pumping machinery. —

Coliiery Guardian. .

” Much valuable information is given, so that the book is thoroughly worthy of an extenswa
circulation amongst practical men and purchasers of machinery."—A[ining your-rial.

Mining Tools.
A MANUAL OF MINING TOOLS. For the Use of Mine
Managers, Agents, Students, &c. By VVILLIAM MORGANS, Lecturer on Prac-
tical Mining at the Bristol School of Mines. now, 25. 6d. cloth limp,

A TLAS OF ENGRA VINGS to Illustrate the above, contain-
ing 235 Illustrations of Mining Tools, drawn to scale. 4to, 4S. 6d. cloth.
“Students in the science of mining, and overinen, captains, managers. and viewers may gain
practical knowledge and useful hints by the study of Mr. Morgans' manual."—Coll£er3' Guardian.
:7 " A [valuable work, which will tend materially to improve our mining literature."—r'llining
our»: .

Coal ﬁIining.
COAL AND COAL MINING : A Rudimentary Treatise on. By
tl'f; late Sir VVARINGTON \V. SMYTH, M.A., F.R.S., &c., Chief Inspector of the
Mines of the Crown. Seventh Edition, Revised and Enlarged. With
Lumerous Illustrations. 12H10,4$. cloth boards.
" As an outline is given of eve ' known coal-ﬁeld in this and other countries, as well as of the
principal methods of working, the 001: will doubtless in erest a very large number of readers."—
rh’ining fraurrial.

Subterrmieous Surveying.
S UBTERPA NEO US S UR VE YING, Elementary and Practical

Treatise on, with and without the Magnetic Needle. ByTHOMAS FENWICK,
Surveyor cf Mines, and THOMAS BAKhR, C.E. Illust. Izmo, 3s. cloth boards.
Granite Quarrying.
GRANITES AND OUR GRANITE INDUSTRIES. By
GEORGE F. HARizis, F.G.S., Membre de la Société Belge de Géologie, Lec-
turer on Economic Geology at the Birkbeck Institution, &c. With Illustra-
tions. Crown Svo, as. 6d. cloth.
5‘ “ A clearly and well—wri.ten manual {or persons engaged or interested in the granite industry. ’
— C (Hr/(2'2.
" An interesting work, whi‘h will be deservedly esteemed.”——Collz'ery Guardian.

“ An exceedingly interf-stirig and valuable niorograph on a subject which has hizherto received
unaccountal 1y little allt‘l.llon ill the shape of systematic literary treu n et.t."—5.-c/:is}z Leader.

ELECTRICITY, ELECTRICAL ENGINEERING. etc. 2.5

 

ELECTRICITY ELECTRICAL ENGINEERING, etc.

Electrical Engineering.
THE ELECTRICAL ENGINEER’S POCKET-BOOK OF
MODERN RULES, FORMULxE, TABLES AND DA TA. By H. K.
KEMPE, M.Inst.E.E., A.M.Inst C.E., Technical Ofﬁcer .Postal Telegrapr.

Author of“A Handbook of Electrical Testing,” &c. With numerous Illus-

trations, royal 32mo, oblong, 55. leather. Ljust published.

“ There is very little in the shape of formulae or data which the electrician is likely to want
in a hmry which cannot be found in its pages."—}’racrira1 Engineer. . _ ,

“A very useful book of reference for daily use in practical electrical engineering and 11:5
various applications to the industries of the present day."—1ron.

" It is the best book of its kind."—1:‘lectriral Engineer.

“ The Electrical Engineer’s Pocket-Book is a good one."—}:‘lertrfcian. _ .

I‘ ‘.‘ Strongly recommended to those engaged in me various electrical industries."—Elcdru‘al'
.ez-zew.
Electric Lighting. \ A
ELECTRIC LIGHT FITTING .' A Handbook for Working
Electrical Engineers, embodying Practical Notes on Installation.Mat’1age~
ment. By JOHN W. URQUHART, Electrician, Author of “ Electric L1ght,_’ &c.
With numerous Illustrations, crown 8vo, 55. cloth. [just published.

“ This volume deals with what may be termed the mechanics of electric lighting, and IS
addressed to man who are alread engaged in the Work or are training for it. The work traverses
a great deal of ground, and may e road as a sequel to the same author's useful work on ‘ Electric
Light.‘ ”—Elerlrz‘a'an.

" This is an attempt to state in the simplest language the precautions which should be adopted
in instal ing the electric light. and to give informationﬂor the guidance of those who have to run
the plant when installed. The book is well worth the perusal of the workmen for whom It is
w.itten."-—Electrical Review. _ ,

' Eminrntly practical and useful. . . . Ought to be in the hands of everyone m charge of
an electric light plant."—15lectrz'ral Engineer. _ ,

" A really capital book, which we have no hesitation in recommending to the notice of working ‘
electricians and electrical engineers."—Medzamral llr'or/d.

Electric Light.
ELECTRIC LIGHT : Its Production and Use. Embodying Plain
Directions for the Treatment cf Dynamo-Electric Machines, Batteries,
Accumulators, and Electric Lamps. By]. W. URQUHART, C.E., Author of
“ Electric Light Fitting,” &c. Fourth Edition, Revised,with Large Additions
and I45 Illustrations. Crown 8vo, 7s. 6d. cloth. [ﬁrst published.

" The book is by far the best that we have yet met with on the subject."—Athemzum.

“It is the only work at present available which gives, in language intelligible {or the most part
to the ordinary reader, a general but concise history of the means which have been adopted up to
the present time in producing the electric light."—Mctrapolilan. .

‘Thc book contains a general account of the means adapted in producing the electric light,
not only as obtained from voltaic or galvanic batteries, but treats at length of the dynamo-electric
machine in several of its forms.”—-Callt'er_y Guardian.

Construction of Dynamos.
DYNAMO CONSTRUCTION : A Practical Handbook for the Use
of Engineer Constructors and Electricians in Charge. \Vith Examples of
leading English, American and Continental Dynamos and Motors. By]. W.
URQUHART, Author of “ Electric Light,” 620. Crown 8vo, 7s. 6d. cloth.
[just published.

“The author has produced a book for which a demand has long existed. The subject is
treated in a thoroughly practical manner."—.l[ea‘zam‘cal I! 'orld.

Dynamic Electricity and Illagnetism.
THE ELEMENTS OF DYNAMIC ELECTRICITY AND
MAGNETISM. By PHILIP ATKINSON, A.M., Ph.D. Crown 8vo. 400 pp.
With 120 Illustrations. 105. 6d. cloth. [justpublishict

Text Boole of Electricity.
THE STUDENT’S TEXT-BOOK OF ELECTRICITY. By
HENRY M. NOAD, Ph.D., F.R.S., F.C.S. New Edition, carefully Revised.
With an Introduction and Additional Chapters, by W. H. PREECE, M.I.C.E.,
Vice-President ofthe Societ?’ of Telegraph Engineers, &c. With 470 Illustra-
tions. Crown 8vo, 12s. 6d. c 0th.
“ We can recommend Dr. Noad's book for clear style, great range of subject, a good index
and a plethora of woodcuts. Such collections as the present are indispensable. ’——Atizemeum.
"An admirable text book for every student— beginner or adxancul—of electricity.“-
Engineering;

26 CROSBY LOCKWOOD @- SON’S CATALOGUE.

Electric Lighting.
THE ELEMENTARY PRINCIPLES OF ELECTRIC LIGHT-
ING. By ALAN A. CAMPBELL SWINTON, Associate I.E.E. Second Edition,
Enlarged and Revised. With 16 Illustrations. Crown 8vo, 15. 6d. cloth.

"Anyone who desires a short and thoroughly clear exposition of the elementary principles of
electric- -lightiug cannot do better than read this little work.’ —Bra¢#ord Observer.

Electricity.
A MANUAL OF ELECTRICITY: Including Galvanism, Mag-

netism, Dinagnetism, Electro- -Dynamics, M agno-Electriczty, and the Electric
Telegraph. By HENRY M. NOAD, Ph. D., F. R. S., F. C. S. Fourth Edition.
With 500 Woodcuts. 8vo, £1 45. cloth.

“ It is worthy of a place in the library of every public institution."—-A[ining 701cml.

Dynamo Construction.

H O W TO MA K E A D YN A M O : A Practical Treatise for Amateurs.
Containing numerous Illustrations and Detailed Instructions for Construct-
1ng a Small Dynamo, to Produce the Electric Light. By ALFRED CROFTS.
Third Edition, Revised and Enlarged. Crown 8vo, 25. cloth.

“The instructions given in this unpretentious little book are sufﬁciently clear and explicit to

enable any amateur mechanic possessed of average skill and the usual tools to be found in an
amateur s workshop, to build a practical dynamo machine. "—Electn".czari

NATURAL SCIENCE—etc.

Pneumatics and Acoustics.
PNEUMA TICS .- including Acoustics and the Phenomena of Wind
Currents, for the Use of Beginners. By CHARLES TOMLINSON, F.R.S.

S., &c. Fourth Edition, Enlarged. Izmo, 15. 6d. clot h.
“ Beginners 1n the study of this important application of science could not have a better manual."

 

 

 

 

~Scotsman. “ A valuable and suitable text- book for students of Acoustics and the Pheno
mena of Wind Currents.” —5c}wolmaster.
Conchology.

A MANUAL OF THE MOLLUSCA : Being a Treatise on Recent
and Fossil Shells. By S. P. VVOODWARD, A.L.S., F.G.S., late Assistant
Palaeontologist in the British Museum. \Vith an Appendix on Recent and
Fossil Conchological Discoveries, by RALPH TATE, A.L.S., F.G.S. Illustrated
by A. N. WATERHOUSE and IOSEPH WILSON LOWRY. With 23 Plates and
upwards of 300 Woodcuts. Reprint of Fourth Ed... 1880. Cr. 8vo, 7s. 6d. c1.
“ A most valuable storehouse of conchological and geological information.‘ ’—Sczence Gossip.
Geology.
RUDIMENTARY TREA TISE ON GEOLOGY, PHYSICAL
AND HISTORICAL. Consisting of “Physical Geology," which sets forth
the leading Principles of the Science; and “Historical Geology,” which
treats of the Mineral and Organic Conditions of the Earth at each successive
epoch, especial reference being made to the British Series of Rocks. By
RALPH TATE, A. L. S. F. G. 8.. &c. With 250 Illustrations. Izmo, 5s. cloth.
" The fulness of the matter has elevated the book into a manual. Its information is exhaustive
and “ell arranged: 5—54-1200! Board Chronicle.
Geology and Geneszs.
THE TWIN RECORDS OF CREATION : or, Geology and
Genesis: their Perfect Harmony and Wonderful Concord. By GEORGE W.
VICTOR LE VAUX. Numerous Illustrations. Fcap. 8vo, 55. cloth.

“ A valuable contribution to the evidences of Revelation, and disposes very; conclusively of the
arguments of those who would set God‘ 5 W orks against God' 5 Word.’ ‘R—T/ze

The Constellations.
STAR GROUPS: A Student’s Guide to the Constellations. By

J. ELLARD GORE, F.R.A.S., M.R.I.A.. &c., Author of “The Scenery of the

Heavens.” With 30 Maps. Small 4to, 55. cloth, silvered. [just published.
Astronomy.

ASTRONOMY. By the late Rev. ROBERT MAIN, M.A.. F.R.S.,

formerly Radcliffe Observer at Oxford. Third Edition, Revised and Cor-

rected to the present time, by \V. T. LYNN, B.A., F.R.A.S. Izmo, 25. cloth.

“A sound and simple treatise, very carefully edited, and a capital book for beginners." —

K1 are let-lg I.. [tx'omzl szes.
“ Accurately brought down to the requirements of the present‘ ime by Mr. Lynn.’ —£duca-

NATURAL SCIENCE, etc. 27

DR. LARDNER’S COURSE OF NATURAL PHILOSOPHY.

THE HANDBOOK OF MECHANICS. Enlarged and almost re-
written by BENJAMIN LOEWY, F.R.A.S. With 378 Illustrations. Post 8vo,

65. cloth.

"The perspicuity of the original has been retained, and chapters which had become obsolete
have been replaced by others of more modern character. The explanations throughout are
studiously popular, and care has been taken to show the application of the various branches of
physics to the industrial arts, and to the practical business of life."-—Mz'm'ng f7m¢rnaLI ..
N t“Mr. Loewy has carefully revised the book, and brought it up to modern requirements. -

d ure.

. f‘Natural hilosophy has had few exponents more able or better skilled in the art of p0pu-
iarisuig the su ject than Dr. Lardner; and Mr. Loewy is doing good service in ﬁtting this treatise.
and the others of the series, for use at the present time."—5cotsman.

THE HANDBOOK OF HYDROSTA TICS AND PNEUMA TIC_S.
New Edition, Revised and Enlarged, by BENJAMIN LOEWY, F.R.A.S. With
236 Illustrations. Post 8vo, 55. cloth. \ _

“For those ‘who desire to attain an accurate knowledge of physical science without the pro;
found methods of mathematical investigation,’ this work is not merely intended, but well adapted.
—Chem:‘cal News.

“The volume before us has been carefully edited, au exited to nearly twice the bulk of the
forlivner edition. and all the most recent matter has been a ded. . . . It is a valuable text-book.
— ature.

“ Candidates for pass examinations will ﬁnd it, we think, specially suited to their requirements."
English Mechanic.

THE HANDBOOK OF HEAT. Edited and almost entirely re-
vriritktlen by BENJAMIN LOva, F.R.A.S., &c. II7 Illustrations. Post 8vo, 65.
c ot .

“ The style is always clear and precise, and conveys instruction without leaving any cloudiness
or lurking doubts behind."—Engineerz'ng.

“A most exhaustive book on the subject on which it treats, and is so arranged that it can be
understood by all who desire to attain an accurate knowledge of physical science. . . . .
Loewy has included all the latest discoveries in the varied laws and effects of heat."—Standard.
1! ;A complete and handy text-book for the use of students and general readers."—English

ec amc.

THE HANDBOOK OF OPTICS. By DIONYSIUS LARDNER,D.C.L.,
formerly Professor of Natural Philosophy and Astronomy in University
College, London. New Edition. Edited by T. OLVER HARDING, B.A. Lond.,
of University College, London. With 298 Illustrations. Small 8vo, 448
pages, 55. cloth.

“Written by one of the ablest English scientiﬁc writers, beautiquy and elaborately illustrated."
rilec/zam'c's Magazine.

THE HANDBOOK OF ELECTRICITY, MAGNETISM, AND
ACOUSTICS. By Dr. LARDNER. Ninth Thousand. Edit. by GEORGE CAREY
FOSTER, B.A., F.C.S. With 400 Illustrations. Small 8vo, 55. cloth.

“ The book could not have been entrusted to anyone better calculated to preserve the terse and
lucid style of Lardner, while correcting his errors and bringing up his work to the present state of
scientiﬁc knowledge."-—Popular Science Review.

 

 

 

l’.

 

THE HANDBOOK OF A S TRON OM Y. Forming a Companion
to the “ Handbook of Natural Philosophy.” By DIONYSIUS LARDNER, P.C.L.,
formerly Professor of Natural Philosophy and Astronomy in University
College, London. Fourth Edition. Rewsed and Edited by EDWIN DUNKIN,
F.R.A.S., Royal Observatory, GreenWIch. With 38 Plates and upwards of
100 Woodcuts. In One Vol., small 8vo, 550 pages, gs. 6d. cloth.

“ Probably no other book contains the same amount of information in so compendious and well-
arranged a form—certainly none at the price at which this is offered to the public.”—Athemeum.

“ We can do no other than pronounce this work a most valuable manual of astronomy, and we
strongly recommend it to all who wish to acquire a general—but at the same time correct—acquaint-
ance With this sublime science."—-Quarterl_y yourual qf Science.

“One of the most deservedly popular books on the subject . . . We would recommend not
only; the student of the elementary principles of the science, but he who aims at mastering the
big er and mathematical branches of astronomy, not to be without this work beside him."—Practi-
cal Magazine.

Dr. Lardner’s Electric Telegraph.
THE ELECTRIC TELEGRAPH. By Dr. LARDNER. Re-
vised and Re-written by E. B. BRIGHT, F.R.A.S. I40 Illustrations. Small

8vo, 25. 6d. cloth.
“ One of the most readable books extant on the Electric Telegraph."—-English Mechanic.

28 CROSBY LOCKWOOD <5- SON 'S CATALOGUE.

 

DR. LAHDNER’S MUSEUM OF SCIENCE AND ART.

 

THE MUSEUM OF SCIENCE AND ART. Edited by
Dionvsws LARDNER, D.C.L., formerly Professor ot Natural Philosophy and
Astronomy in University Colle e, London. With upwards of 1,200 Engrav-
ings on Wood. In 6 Double Vo umes, £1 15., in a new and elegant cloth bind-
ing; or handsomely bound in half-morocco, 315. 6d.

*** OPINXONS or THE PRESS.

"This series, besides affording popular but sound instruction on scientiﬁc subjects, with which
the humblest man in the country ought to be acquainted, also undertakes that teachin of ‘ Com-
mon Things ’ which every well-wisher of his kind is anxious to promote. Many thousan copies of
tlns serviceable publication have been printed, in the belief and hope that the desire for instruction
and improvement widely prevails ; and we have no fear that such enlightened faith will meet with
disappomtment."—Time.r.

_“A cheap and interesting publication. alike informing and attractive. The papers combine
subjects of importance and great scientiﬁc knowledge. considerable inductive powers, and a
popular style of treatment."—Sfectalor.

“The ' Museum of Science and Art’ is the most valuable contribution that has ever been
made to the SClcntlﬁC Instruction ot every class of society."—Sir DAVID BREWSTER, in the
North British Review.

" Whetherfve consider the liberality and beauty of the illustrations, the charm of the writing,
or the durable interest of the matter, we must express our belief that there is hard] ' to be found

among the new books one that would be welcomed by people of so many ages an classes as a
valuable present.”—£x:xminer.

*** Separate books formed from the above, suitable for Workmen's Libraries,
Science Classes, etc.

Common Things Explained. Containing Air, Earth, Fire, \Vater, Time,
Man, the Eye, Locomotion, Colour, Clocks and Watches, &c. 233 Illus-
trations, cloth gilt, 55.

The Microscope. Containing Optical Images, Magnifying Glasses, Origin
and Description of the Microscope, Microscopic Objects, the Solar Micro-
scope, Microscopic Drawing and Engraving, &c. 147 Illustrations, cloth
gut, 25.

Popular Geology. Containing Earthquakes and Volcanoes, the Crust oi
the Earth, &c. 201 Illustrations, cloth gilt, 25. 6d.

Popular Physics. Containing Magnitude and Minuteness, the Atmo-
sphere, Meteoric Stones, Popular Fallacies, Weather Prognostics, the
Thermometer, the Barometer, Sound, &c. 85 Illustrations, cloth gilt, 25. 6d.

Stcam and its Uses. Including the Steam Engine, the Locomotive, and
Steam Navigation. 89 Illustrations, cloth gilt, 25.

Popular Astronomy. Containing How to observe the Heavens—The
Earth, Sun, Moon, Planets, Light, Comets, Eclipses, Astronomical Inﬂu-
ences, &c. 182 Illustrations, 45. 6d.

The Bee and White A nts : Their Manners and Habits. \Vith Illustra-
tions of Animal Instinct and Intelligence. :35 Illustrations, cloth gilt, 25.

The Electric Telegraph Popularized. To render-intelligible to allwho
can Read, irrespective of any previous Scientiﬁc Acquirements, the various
forms of Telegraphy in Actual Operation. :00 Illustrations, cloth gilt,
15. 6d.

 

Dr. Lardner’s School Handbooks.

NA TURA L PHILOSOPHY FOR SCHOOLS. By Dr. LARDNER.
328 Illustrations. Sixth Edition. One Vol., 35. 6d. cloth.

" A very convenient class-book forjunior students in private schools. It is intended to convey,
in clear and precise terms, general notions of all the principal divisions of Physical Science."—
b‘rz‘tz‘sh Quarterly Review.

ANIMAL PHYSIOLOGY FOR SCHOOLS. By Dr. LARDNEP.
With 190 Illustrations. Second Edition. One Vol., 35. 6d. cloth. .

“Clearly written, well arrange-J, and cxze‘lently illustrated."—Gcra’ener': Chrcnicle.

CO UNTING-HO USE WORK, TA BLES, CA LC ULA TORS. etc. 29

COUNTING-HOUSE WORK, TABLES, etc.

Introduction to Business.
LESSONS IN COMMERCE. By Professor R. GAMBARO, of
the Royal High Commercial School at Genoa. Edited and Revised by JAMES

GAULT, Professor of Commerce and Commercial Law in King's College,
London. Crown 8vo, price about 35. 6d. [In the press.

Accounts for ItIanufacturers.

FACTORY ACCOUNTS: Their Principles and Practice. A
Handbook for Accountants and Manufacturers, with Appendices on the No-
menclature of Machine Details; the Income Tax Acts; the Rating of Fac-
tories; Fire and Boiler Insurance; the Factory and \Vorkshop Acts, &c.,
including also a Glossary of Terms and a large number of Specimen Rulings.
By EMILE GARCKE and J. M. FELLS. Third Edition. Demy 8vo, 250 pages,
price 65. strongly bound. \ .

“ A very interesting description ofthe requirements of Factory Accounts. . . . the principle

ofassimilating the Factory Accounts to the general conuuercial books is one which we thoroughly
agree wrth."—Aeramztants' yournal.

“ There are few owners of Factories who would not derive great beneﬁt from the perusal
of this most admirable work."—Lacal Government Chronic/e.

Foreign Commercial Correspondence.
THE FOREIGN COhIIIIERCIA L CORRESPONDENT : Being
Aids to Commercial Correspondence in Five Languages—English, French,
German, Italian and Spanish. By CONRAD E. BAKER. Second Edition,
Revised. Crown 8vo, 35. 6d. cloth.
" Whoever wishes to correspond in all the languages mentioned by Mr. Baker cannot do better
than study this work, the materials ofwhich are excellent and conveniently arranged.“’—Atlzenaum.

“A careful exaniina‘im has convinced us that it is unusually complete, well arranged and
reliable. The book 15 a thoroughly good one."—5cl;oo.’nmster.

Intuitive Calculations.
THE COMPENDIOUS CALCULATOR ; or, Easy and Con-
cise Methods of Performing the various Arithmetical Operations required in
Commercial and Business Transactions, together with Useful Tables. By
D. O‘GORMAN. Corrected by Professor 1. R. YOUNG. Twenty-seventh Ed.,
Revised by C. NORRIS. Fcap. 8vo, 25. 6d. cloth; or. 35. 6d. half-bound.

“ It would be difﬁcult to exaggerate the usefulness of a book like this to everyone engaged in
commerce or manufacturing industry.”—Knowledge.

“ Supplies special and rapid methods for all kinds of calculations. Of great utility to persons
engaged in any kind of commercial transactions."—Scotsman.

Modern IIIetr-ical Units and Systems.
MODERN METROLOGY .' A Manual of the Metrical Units
and Systems of the Present Century. With an Appendix containing a proposed
English System. By Lowrs D’A. JACKSON, A.M.Inst.C.E., Author of “Aid
to Survey Practice,” &c. Large crow'n 8vo, 125. 6d. cloth.

"The author has brought together much valuable and interesting information. . . . We
cannot but recommend the work."—Nature.

“ For exhaustive tables of equivalent wei hts and measures of all sorts. and for clear demonstra-
tions of the effects of the various systems t at have been proposed or adopted. Mr. Jackson's
treatise is without a rival."—Academy.

The Metric System and the British Standards.
A SERIES OF METRIC TABLES, in which the British Stand-
ard Measures and Weights are compared with those of the Metric System at gresent
in Use on the Continent. By C. H. DOWLING, C.E. 8vo, 105. 6d. strongly ound.
“Their accuracy has been certiﬁed by Professor Airy, the Astronomer-Royal."—Bui1der.
“Mr. Dowlin '5 Tables are well put together as a ready-reckoner for the conversion of one
system into the ot er."—Athemzum.
Iron and Metal Trades’ Calculator.
THE IRON AND METAL TRADES’ COMPANION. For
expeditiously ascertaining the Value of any Goods bought or sold by Weight,
from IS. per cwt. to 1125. per cwt., and from one farthing per pound to one
shilling per pound. Each Table extends from one pound to 100 tons. To
which are appended Rules on Decimals. Square and Cube Root, Mensuration
ot Superﬁcies and Solids, &c. ; also Tables of Weights of Materials, and other
Useful Memoranda. By THOS. Downm. Strongly bound in leather, 396 pp., gs.
“A most useful set of tables. . . . Nothing like them before existed."—Bu£ldc’n News.

“Although-specially ada ted to the-iron and metal trades, the tables will be found useful in
every other busmess in whic merchandise is bought and sold by weight."—Raz‘l'way News.

 

 

3o CROSBY LOCKWOOD @- SON’S CATALOGUE.

 

 

Calculator for Numbers and Weights Combined.
THE NUMBER, WEIGHT AND FRACTIONAL CALCU-

LA TOR. Containing upwards of 250,000 Separate Calculations, showing at
a glance the value at 422 difterent rates, ranging from r- 3th of a Penny to
205. each, or per cwt., and £20 per ton, of any number 0 articles consecu-
tively, from I to 470.-—Any number of cwts., qrs., and lbs., from I cwt. to 470
cwts.-—Any number of tons, cwts., qrs., and 1bs.,from 1 to 1,000 tons. By '
WILLIAM CHADWICK, Public Accountant. Third Edition, Revised and Im- 5
proved. 8vo, price 185., strongly bound for Ofﬁce wear and tear.

*,,,*f This work is specially adapted for the Apportionment of Mileage Charges
for Railway Trafﬁc.

[3“ This comprehensive and entirely unique and original Calculator is adapted
for the use of Accountants and A na’itors, Railway Companies, Canal Companies,
Shippers, Shipping Agents, General Carriers, etc. '

I ron founders, Brass founders, Metal Merchants, Iron M anufactnrers,I ronmongers,
Engineers, Machinists, Boiler Makers, M illwrights, Rooﬁng, Bridge and Girder
Makers, Colliery Proprietors, etc. ‘

Timber Merchants, Builders, Contractors, Architects, Surveyors, Auctioneers
Valners, Brokers, Mill Owners and Manufacturers, Mill F urnishers, Merchants and
General Wholesale Tradesmen.

*** OPINIONS OF THE PRESS.

“The book contains the answers to questions, and not simply a set of ingenious puzzle
methods of arriving at results. It is as easy of reference for any answer or any number of answers
as a dictionary, and the references are even more quickly made. For making up accounts or esti‘
mates, the book must prove invaluable to all who have any considerable quantity of calculations _
involving price and measure in any combination to do.”—Eng~ineer. '

“ The most perfect work of the kind yet prepared."—Glasgo'w Herald.

Comprehensive Weight Calculator.

THE WEIGHT CA LC ULA TOR. Being a Series of Tables

upon a New and Comprehensive Plan, exhibiting at One Reference the exact

Value of any Weight from I lb. to 15 tons, at 300 Progressive Rates, from rd.

to 1685. per cwt., and containing 186,000 Direct Answers, which, with their
Combinations, consisting of a Single addition (mostly to be performed at
sight), will aﬂord an aggregate of 10,266,000 Answers; the whole being calcu-
lated and designed to ensure correctness and promote despatoh. By HENRY
HARBEN, Accountant. Fourth Edition, carefully Corrected. Royal 8vo,
strongly half-bound, £1 55. ,

“ A practical and useful work of reference for men of business generally ; it is the best of the
kind we have seen.’ —-Ironmonger.

“Of priceless value to business men. It is a necessary book in all mercantile oﬂices."—Shef.
ﬁeld Indeﬁena’ent.

Comprehenszrve Discount Guide.

THE DISCOUNT GUIDE. Comprising several Series of

Tables for the use of Merchants, Manufacturers, Ironmongers, and others,

by which may be ascertained the exact Proﬁt arising from any mode of using

Discounts, either in the Purchase or Sale of Goods, and the method of either

Altering a Rate of Discount or Advancing a Price, so as to produce, by one

operation, a sum that will realise any required proﬁt after allowing one or

more Discounts: to which are added Tables of Proﬁt or Advance from 1% to

90 per cent, Tables of Discount from 1% to 983,i per cent., and Tables of Com-

mission, &c., from a} to 10 per cent. By HENRY HARBEN, Accountant, Author
of “ The Weight Calculator.” New Edition, carefully Revised and Corrected.
Demy 8v0, 544 pp. half-bound, £1 55.

“A book such as this can only be appreciated by business men, to whom the saving of time
means saving of money. We have the high authority of Professor J. R. Young that the tables
throughout the work are constructed upon strictly accurate principles. The work is a mode
of typographical clearness. and must prove of great value to merchants, manufacturers, and
general traders."—British Trade yonrnal.

I ran Shipbmlders’ and Merchants’ W eight Tables.
IRON-FLA TE WEIGHT TABLES .' For Iron Shipbuilders,
Engineers and Iron Merchants. Containing the Calculated Weights of up-
wards of 150,000 diﬂerent sizes of Iron Plates, from 1 foot by 6 in. by 1 in. to
10 feet by 5 feet by 1 in. Worked out on the basis of 40 lbs. to the square
foot of Iron of 1 inch in thickness. Caretully compiled and thoroughly Re-
vised by H. BURLINSON and W. H. SIMPSON. Oblong 4to, 255. half-bound.

"This work will be found of great utility. The authors have had much practical experience

of what is wanting in making estimates; and the use of the book will save much tune in making
elaborate calculations.”—Engliﬂz Mechanic. ,

INDUSTRIAL AND USEFUL ARTS. 31

 

 

INDUSTRIAL AND USEFUL ARTS.
Soap-making.

THE A RT OF SOA P-M A KI N G : A Practical Handbook of the
Manufacture of Hard and Soft Soaps, Toilet Soaps, etc. Including many New
Processes, and a Chapter on the Recovery of Glycerine from Waste Leys.
By ALEXANDER WATT, Author of “ Electro-Metallurgy Practicall Treated,”
&c. With numerous Illustrations. Fourth Edition, Revised an Enlarged.
Crown 8vo, 7s. 6d. cloth.
“The work will prove very useful, not merely to the technological student, but 0 he practical
soap-boiler who wishes to understand the theory of his art."—C/zemical News.
“Mr. Watt's book is a thorou hly practical treatise on an art which has almost no literature in
our language. We congratulate t e author on the success of his endeavour to ﬁll a. void in English
technical literature.”—Nature.

Paper Making.
THE ART OF PAPER MAKING: A Practical Handbook of the

Manufacture of Paper from Rags, Esparto, Straw and other Fibrous Materials,
Including the Manufacture of Pulp from Wood Fibre, with a Description of
the Machinery and Appliances used. To which are added Details of
Processes for Recovering Soda from Waste Liquors. By ALEXANDER WATT.
With Illustrations. Crown 8vo, 7s. 6d. cloth.

“This book is succinct, lucid, thoroughly practical, and includes everything of interest to the

modern paper maker. It is the latest, most practical and most complete work on the paper-making
art before the British public."—Papcr Record.

“It may be regarded as the standard work on the subject. The book is full of valuable in-
formation. The ‘ Art of Paper-making,’ is in every respect a model of a text-book, either for a
technical class or for the private student."—Papermzd Printing Trades Siomwal.

“ Admirably adapted for general as well as ordinary technical reference, and as a handbook
gar studrgnts in technical education may be warmly cornmended."— The Paper [Maker's diam/z!)

ozerna .

Leather Manufacture.
THE ART OF LEATHER MANUFACTURE. Being a

Practical Handbook, in which the Operations of Tanning, Currying, and

Leather Dressing are fully Described, the Principles of Tanning Explained

and many Recent Processes introduced. By ALEXANDER WATT, Author of

“ Soap-Making,” &c. With numerous Illustrations. Second Edition. Crown

8vo, gs. cloth.

“A sound, comprehensive treatise on tanning and its accessories. This book is an eminently
valuable production. which redounds to the credit of both author and publishers."—C}zemical

 

 

“This volume is technical without being tedious, comprehensive and complete without being
rosy, and it bears on every page the impress of a master hand. We have never come across a
etter trade treatise, nor one that so thoroughly supplied an absolute want.”—Sh0e and Leather

Trades’ Chronicle.

Boot and Shoe Making.

THE ART OF BOOT AND SHOE-MAKING. A Practical
Handbook, including Measurement, Last-Fitting, Cutting-Out, Closing and
Making, with a Description of the most approved Machinery employed.
By JOHN B. LENO, late Editor of St. Crispin, and The Boot and Shoe-Maker.
With numerous Illustrations. Third Edition. 12mo, 25. cloth limp.

“This excellent treatise is by far the best work ever written on the subject. A new work,
embracing all modern improvements, was much wanted. This want is now satisﬁed. The chapter
on clicking, which shows how waste may be prevented. will save ﬁfty times the price of the book."
—Scottis}t Leather Trader.

Dentistry. ~
MECHANICAL DENTISTRY : A Practical Treatise on the
Construction of the various kinds of Artiﬁcial Dentures. Comprising also Use-
ful Formulae, Tables and Receipts for Gold Plate, Clasps, Solders, &c. &c.
By CHARLES HUNTER. Third Edition, Revised. With upwards of 100
Wood Engravings. Crown 8vo, 33. 6d. cloth.

“ The work is very practical."-—}l[onthl_y Review ofDental Surgery.

“ We can stron ly recommend Mr. Hunter’s treatise to all students preparing for the profession
of dentistry, as we as to every mechanical dentist."—Dublz‘n yournal of Medical Science.
Wood Engraving.

WOOD EN GRA VI N G : A Practical and E asy I ntroductiou to the
Study of the Art. By WILLIAM NORMAN BROWN. Second Edition. With
numerous Illustrations. 12mo, 15. 6d. cloth limp.

“ The book is clear and complete, and will be useful to anyone wanting to understand the ﬁrst
elements of the beautiful art of wood engraving."— Graphic.

Ln

2 CROSBY LOCKWOOD é}: SON’S CATALOGUE.

HANDYBOOKS FOR HAND/CRAFTS. By PAUL N.HA81.U.’3:‘.’.

ZlIetal Turning.
THE METAL TURNER’S HA NDYBOOK. A Practical Manual
for Worker5 at the Foot-Lathe: Embracing Information on the Tools,
Appliances and Processes employed in Metal Turning. By PAUL N. HAS-
LUCK, Author of “ Lathe-Work." With upwards of One Hundred Illustra-
tions. Second Edition, Revised. Crown 8vo, 25. cloth.
“ Clearly and concisely written, excellent in every way."—J[ec}zam'cal ll’orld.

Wood Turning.
THE WOOD TURNER‘S HA ND YBOOK. A Practical Manual
for Workers at the Lathe: Embracing Information on the Tools, Appliances
and Processes Emplo 'ed in Wood Turning. By PAUL N. HASLUCK. W'ith
upwards of One Hun red Illustrations. Crown Svo, 25. cloth.
”We recommend the book to young turncrs and amateurs. A multitude ofworkmen have
hitherto sought in vain for a manual of this special industry."—.Mechanz'cal W'orld.
WOOD AND METAL TURNING. By P. N. HASLUCK.
(Being the Two preceding Vols. bound together.) 300 pp, with upwards of
200 Illustrations, crown 8vo, 3s. 6d. cloth.

""atch Repairing.
THE WATCH }’OBBER’S HANDYBOOK. A PracticalMamml
on Cleaning, Repairing and Adjusting. Embracing Information on the Tools,
Materials, Appliances and Processes Employed in Watchwork. By pAUL N.
HASLUCK. With upwards of One Hundred Illustrations. Cr. 8vo, 25. cloth.
“ All young persons connected with the trade should acquire and study this excellent, and at
the same time, inexpensive work."—Clerzécl:u'cll Chronicle.
Cloclc Repairing. -
THE CLOCK jOBBER’S HANDYBOOK .' A Practical Manual
on Cleaning, Repairing and Adjusting. EmbracingInformation on the Tools,
Materials, Appliances and Processes Employed in Clockwork. By PAUL N.
I‘IASLUCK. \Vith upwards of 100 Illustrations. Cr. 8vo, 25. cloth.
" Of inestixnable service to those commencing the trade."—Cc:'eutry Standard.
WA TCH AND CLOCK yoBBING. By P. N. HAswcx.
(Being the Two preceding Vols. bound together.) 32) pp., with upwards of
200 Illustrations, crown 8v0, 3s. 6d. cloth.

Pattern JlIaking.
THE PATTERN MA KER’S HANDYBOOK. A Practical
Manual. embracing Information on the Tools, Materials and Appliances em-
ployed in Constructing Patterns for Founders. By PAUL N. HASLUCK.
With One Hundred Illustrations. Crown 8vo, 25. cloth.
“This handy volume contains sound information of considerable value to students and
artiﬁcers."—Hard'ware Trade: journal.

Mechanical JlIanipulation.
THE ME CHA NIC’S WORKSHOP HA ND YBOOK. A Practical
Manual on Mechanical Manipulation. Embracing Information on various
Handicraft Processes, with Useful Notes and Miscellaneous Memoranda.
By PAUL N. HASLUCK. Crown 8vo, 25. cloth.
“ It is a book which should be found in every workshop. as it is one which will be continually
referred to for a very great amount of standard information."—Satm-.{a_y Review.

Model Engineering.
THE MODEL ENGINEER’S HA NDYBOOK : A Practical
Manual on Model Steam Engines. Embracing Information on the Tools,
Materials and Processes Employed in their Construction. By PAUL N.
HASLUCK. \Vith upwards of I00 Illustrations. Crown 8vo, 25. cloth.
“ By carefully going through the work. amateurs may pick up an excellent notion of the con-
struction of full-sized steam engines."—— Telegraphic y’azu‘nal.

Cabinet Illaking.
THE CABINET WORKER’S HANDYBOOK: A Practical
Manual, embracing Information on the Tools, Materials, Appliances and
Processes employed in Cabinet Work. By PAUL N. HASLUCK, Author of
“Lathe \Vork,"&c. \Vith upwards of 100 Illustrations. Crown 8vo, 25.
cloth. {Glasgow Herald.

“ Thoroughly practical thrOughout. The amateur worker in wood w 11 ﬁnd it most useful."—

I

INDUSTRIAL AND USEFUL ARTS. 33

Electrolysis of Gold, Silver, Copper, etc.

ELECTRO-DEPOSI TI ON : A Practical Treatise on the Electrolysis
of Gold, Silver, Copper, Nickel, and other Metals and Alloys. With descrip-
tions of Voltaic Batteries, Magneto and Dynamo-Electric Machines, Ther-
mopiles, and of the Materials and Processes used in every Department of
the Art, and several Chapters on Electro-Metallurgy. By ALEXANDER
VVATT. Third Edition, Revised and Corrected. Crown 8vo, 93. cloth.
”Eminently a book for the practical worker in electro-deposition. It contains practical
dclscriptions of methods, processes and materials as actually pursued and used in the workshop."
— wzgzneer.

Electro-Metallurgy.

ELE CTRO-M E TA LL U RG Y ; Practically Treated. By ALEXANDER

WATT. Author of “Electro-Deposition,” &c. Ninth Edition, Enlarged and

Revised, with Additional Illustrations, and including the most recent

Processes. Izmo, 4s. cloth boards.

"From this book both amateur and artisan may learn everything necessary for the successful
prosecution of electrOplating.”—lron. \
Eleotroplating.

ELECTROPLA TING : A Practical Handbook on the Deposi-

tion of Copper, Silver, Nickel, Gold, Aluminium, Brass, Platinum, &c. &c.

With ' Descriptions of the Chemicals, Materials, Batteries and Dynamo

Machines used in the Art. By 1. W. URQUHART, C.E. Second Edition, with

Additions. Numerous Illustrations. Crown 8vo, 5s. cloth.

“ An excellent practical manual.”—Eugz’neering,

“ An excellent work, giving the newest information."——Horologz'cal yourual.
Electron/ping.

ELECTROTYPI N G : The Reproduction and Multiplication of Print-

ing Surfaces and Works of Art by the Electra-deposition of Metals. By J. W.

URQUHART, C.E. Crown 8vo, 55. cloth.

“ The book is thoroughly practical. The reader is, therefore, conducted through the leading
laws of electricity, then through the metals used by electrot pers, the apparatus, and the depositing
processes,up to the ﬁnal preparation of the work.”—Art ozernal.

H orology.
A TREA TISE ON MODERN HOROLOG Y, in Theory and Prac-
tice. Translated from the French of CLAUDIUS SAUNIER, by ULIEN TRIP-
PLIN, F.R.A.S., and EDWARD RXGG, M.A., Assayer in the Roya Mint. With
78 Woodcuts and 22 Coloured Plates. Second Edition. Royal 8vo, £2 25.
cloth; £2 Ios. half-calf.

“ There is no horological work in the English language at all to be compared to this roduc-
(ion of M. Saunier’s for clearness and completeness. It is alike good as a guide for the stu ent and
as a reference for the experienced horologist and skilled workman."—Horological yournal.

“ The latest, the most complete. and the most reliable of those literary productions to which
continental watchmakers are indebted for the mechanical superiority over their En lish brethren
—in fact, the Book of Books, is M. Saunier’s ‘ Treatise.’"—Watc/zmaker, yeweller an Silversmith.
Watchmaleing.

THE WA TCHMA KER’S HANDBOOK. A Workshop Com-
panion for those engaged in Watchmaking and the Allied Mechanical Arts.
From the French of CLAUDIUS SAUNIER. Enlarged by JULIEN TRIPPLIN,
F.R.A.S., and EDWARD RiGG, _M.A., Assayer in the Royal Mint. Woodcuts
and Copper Plates. Third Edition, ReVised. Crown 8vo, 95. cloth.

“ Each part is truly a treatise in itself. The arrangement is good and the language is clear and
concise. It is an admirable guide for the young watchmaker."—1ingz'neerz‘ng.

" It is impossible to speak too highly of its excellence. It fulfils every requirement in a hand-
book intended for the use of a workman.”—Watch and Clockmaker.

“ This book contains an immense number of practical details bearing on the daily occupation
of a watchmaker.”— ll’atchmaker and ilIetal'worA-er (Chicago).

Goldsmiths’ lVorlc. ‘
THE GOLDSMITH’S HANDBOOK. By GEORGE E. GEE,
Jeweller, &c. Third Edition, considerably Enlarged. Izmo, 35. 6d. c1. bds.
“A good, sornd educator, and will be accepted as an authority."—Horologu‘cal yearned.
Silversmiths’ Work.
THE SIL VERSMITH’S HANDBOOK. By GEORGE E. GEE,
Jeweller, &c. Second Edition, Revised, with numerous Illustrations. Izmo,
3s. 6d. cloth boards.
"Workers in the trade will Speedily discover its merits when they sit down to study it.”—
English Alechanic. ' _ .
*** The above two works together, strongly half-bound, price 73.

D

 

\

34 CROSBY LOCKWOOD <5- SON’S CATALOGUE.

 

Bread and Biscuit Baking.

THE BREAD AND BISCUIT BAKER’ 5 AND SUGAR-
BOILER’S ASSISTANT. Including a large variety of Modern Recipes.
With Remarks on the Art of Bread— making. By ROBERT WELLS, Practical
Baker. Second Edition, with Additional Recipes. Crown 8vo, 25. cloth.

“ A large number of 11 r1111. cs for the ordinary cook, as well as the baker. ’—~Satz¢rda_y Review.

Confectionery.
THE PASTRYCOOK AND CONFECTIONER’S GUIDE.

For Hotels, Restaurants and the Trade in general, adapted also for Family
Use. By ROBERT WELLS, Author Of “The Bread and Biscuit Baker’ S and
Sugar Boiler’ S Assistant.” C1 own 8vo, 25. cloth.

“ We cannot speak too highly of this really excellent work. In these days of keen competition
our readers cannot do better than purchase this book. ”bakers Times.

Ornamental Confectionery.
ORNAMENTAL CONFECTIONERY: A Guide for Bakers

Confectioners and Pastrycooks; including a variety of Modern Recipes, and

Remarks on Decorative and Coloured Work. With 129 Original Designs.

By ROBERT WELLS. Crown b’vo, 55. cloth.

"A valuable work, and should be in the hands of every baker and confectioner. The illus-
rative designs are alone worth treble the amount charged for the whole work."- Bakers’ Times.

Flour Confectionery.
THE MODERN FLOUR CONFECTIONER. Wholesale and

Retail. Containing a large Collection of Recipes for Cheap Cakes Biscuits,
&c. With Remarks on the Ingredients used in their Manufacture, &c. By
R. WELLS, Author of “Ornamental Confectionery, ” “The Bread and Biscuit
Baker,” “ The Pastrycook’s Guide,” &c. Crown 8vo, 25. cloth.

Laundry Work.
LA UNDRY MANAGEMENT. A Handbook for Use in Private

and Public Laundries, Including Descriptive Accounts of Modern Machinery
and Appliances for Laundry Work. By the EDITOR of “The Laundry
Journal.” With numerous Illustrations. Crown 8vo, 25. 6d. cloth.

 

 

CHEMICAL MANUFACTUREE 6’6 COMMERCE.

New Manual of Engineering Chemistry. _
ENGINEERING CHEMISTRY: A Practical Treatise for the
Use of Analytical Chemists, Engineers, Iron Masters, Iron Founders,
Students, and Others. Comprising Methods of Analysis and Valuation Of the
Principal Materials used in Engineering Work, with numerous Analyses,

 

Examples, and Suggestions. By H. JOSHUA PHILLIPS, F. I. C.,
Analytical and Consulting Chemist to the Great Eastern Railway. Crown 8vd
320 pp., with Illustrations, 105. 6d. cloth. ., [just published

“ In this work the author has rendered no small service to a numerous body of practical men
. The analytical methods may be pronounced most satisfactory, being as accurate as the
despatch required of engineering chemists permits.’ ’—C/zemua[ A' ews.

Analysis and Valuation of Fuels. _
FUELS: SOLID, LIQUID AND GASEOUS, Thelr Analysis
and Valuation. For the Use of Chemists and Engineers. By H. J. PHILLIPS,
F. C. S, Analytical and Consulting Chemist to the Great Eastern Railway.
Crown 8vo, 35. 6d. cloth.

“ Ought to have its place In the laboratory of every metallurgical establishment, and wherever
fuel 15 used on a large scale. ’—Chcmz‘cal News.

“Cannot fail to be of wide interest, especially at the present time.’ ’—Raﬂway xVews.

Alkali Trade, Manufacture of Sulphuric Acid, etc.

A MANUAL OF THE ALKA LI TRADE, including the
Manufacture of Sulphuric Acid, Sulphate of Soda, and Bleaching Powder.
By JOHN LOMAS. 390 pages. With 232 Illustrations and Working Drawings.
Second Edition. Royal 8vo, £1 105. cloth.

"This book 15 written by a manufacturer {or manufacturers. The working details of the most

approved forms of apparatus are ven, and these are accompanied by no less than 232 wood en
gravings, all of whic may be use {or the purposes of construction. M—Athermum

AGRICULTURE, FARMING, GARDENING, etc. _ 35

The Blowpipe.
THE BLOWPIPE IN CHEMISTRY, MINERALOGY, AND
GEOLOGY. Containing all known Methods of Anhydrous Analysis, Work-
ing Examples, and Instructions for Making Apparatus. By Lieut.-Col. W. A
Ross, R.A. With 120 Illustrations. New Edition. Crown 8v0, 55. cloth.

“The student who goes through the course of experimentation here laid down will gain a
better msrght into inorganic chemistry and mineralogy than if he had ‘got up’ any of the best
text-books ot the day, and passed any number of examinations in their c0ntents.”—Chem1‘cal News.

Commercial Chemical Analysis.
THE COMMERCIAL HANDBOOK OF CHEMICAL ANA-

LYSIS; or, Practical Instructions for the determination of the Intrinsic or

Commercial Value of Substances used in Manufactures.Trades, and the Arts.

By A. NORMANDY. New Edition by H. M. NOAD, F.R.S. Cr. 8v0, 125. 6d. cl.

“Essential to the analysts appointed under the newnAct. The most recent results are given.
and the work is well edited and carefully written."—-Nature.

 

Brewing.
A HANDBOOK FOR YOUNG BREWERS. By HERBERT
EDWARDS WRIGHT, B.A. New Edition, much Enlarged. [In the press.

Dge- IVares and Colours.
THE MANUAL 0F COLOURS AND DYE-WARES : Their

Properties, Applications, Valuation, Impurities, and Sophistications. For the
use of Dyers, Printers, Drysalters, Brokers, &c. By J. W. SLATER. Seconn
Edition, Revised and greatly Enlarged. Crown 8vo, 7s. 6d. cloth.

“ A complete encyclopaedia of the materz'a tz'nctorz'a. The information given respecting each
article is full and precise, and the methods of determining the value of articles such as these, so
liable to sophistication, are given with clearness, and are practical as well as valuable."—C/zemi:tl
and Drzeggist.

“There is no other work which covers precisely the same ground. T0 students preparing
for examinations in dyeing and printing it will prove exceedingly useful.”—Chemz’cal News.

Pigments. .
THE ARTIST’S MANUAL OF PIGMENTS. Showing

their Composition, Conditions of Permanency, Non-Permanency, and Adul-

terations; Effects in Combination with Each Other and with Vehicles ; and

the most Reliable Tests of Purity. By H. C. STANDAGE. Second Edition.

Crown 8v0, 25. 6d. cloth.

” This work is indeed multzmz-in-par'vo. and we can, with good conscience, recommend it to
all who come in contact wtth pigments, whether as makers, dealers or users.”—Clzemz°eal Review.

Gauging. Tables and Rules for Revenue Oﬁ‘lcers,
Brewers, etc.
A POCKET BOOK OF MENSURATION AND GA UGING :
Containing Tables, Rules and Memoranda for Revenue Ofﬁcers, Brewers,
Spirit Merchants, &c. By J. B. MANT (Inland Revenue). Second Edition
Revised. Oblong 18mo, 4s. leather, with elastic band.
“ This handy and usetul book is adapted to the requirements of the Inland Revenue Depart
ment, and will ban favourite book of reference."—Cim'lz‘an.
“ Should be in the hands of every practical brewer."—Brezuers’ yournal.

 

 

AGRICULTURE, FARMING, GARDENING, etc.

Youatt and Burn’s Complete Grazier.
THE COMPLETE GRAZIER, and FARMER’S and CATTLE-
BREEDER’S ASSISTANT. Including the Breeding, Rearing, and Feeding
of Stock; Management of the Dairy, Culture and Management of Grass
Land, and of Grain and Root Crops, &c. By W'. YOUATT and R. SCOTT
BURN. An entirely New Edition, partly Re-written and greatly Enlarged, by
W. FREAM, B.Sc.Lond., LL.D. In medium 8v0, about 1,000 pp. [In the press.

Agricultural Facts and Figures.
NOTE-BOOK OF A GRICULTURAL FA CTS AND FIGURES
FOR FARMERS AND FARM STUDENTS. By PRIMROSE MCCONNELL,
late Professor of Agriculture, Glasgow Veterinary College. T hll‘d Edition
Royal gzmo, 4s. leather.
“ The most complete and comprehensive Note-book for Farmers and Farm .Students that we
have seen. It literall teems with information, and we can cordially recommend It to all connected
With agricullture."— orlh British Agﬁmlturz‘st.

 

36 CROSBY LOCKWOOD é»- SON’S CATALOGUE.

 

Flour Manufacture, Milling, etc.
FLOUR MANUFACTURE: A Treatise on Milling Science

and Practice. By FRIEDRICH KICK, Imperial Regierungsrath, Professor of
Mechanical Technology in the Imperial German Polytechnic Institute,
Prague. Translated from the Second Enlarged and Rev1sed Editlon With
Supplement. By H. H. P. POWLEs, A.M.I.C.E. Nearly 400 pp. Illustrated
with 28 Folding Plates, and I67 Woodcuts. Royal 8vo, 25$. cloth.
“ This valuable work is, and will remain, the standard authority on the science of milling.
The miller who has read and digested this work will have laid the foundation, so to speak, of a suc-
cessful career; he will have acquired a number of general principles which he can proceed to
apply. In this handsome volume we at last have the accepted text-book ofmodem millmgingood,
sound English, which has little, if any, trace of the German idiom."—— The Miller.
“ The appearance of this celebrated work in English is very opportune, and British millers
will, we are sure, not be slow in availing themselves of its pages.”—Mz’llers’ Gazette.
Small Farming.
SYSTEMATIC SMALL FARMING ; or, The Lessons of my
Farm. Being an Introduction to Modern Farm Practice for Small Farmers
In the Culture of Crops; The Feeding Of Cattle; The Management of the
Dairy, Poultry and Pigs, &c. &c. By ROBERT SCOTT BURN, Author of “ Out-
lines of Landed Estates’ Management.” Numerous Illusts., cr. 8vo, 65. cloth.
"This is the completest book of its class we have seen, and one which every amateur farmer
will read with pleasure and accept as a guide.”—Field.
“The volume contains a vast amount of useful information. No branch of farming is let

untouched, from the labour to be done to the results achieved. It may be safely recommended to
all who think they will be in paradise when they buy or rent a three-acre farm.”—Glasgozu Herald.

Modern Farming. . _
OUTLINES 0F MODERN FARMING. By R. SCOTT BURN.
Soils, Manures, and Crops—Farming and Farming Economy—Cattle, Sheep,
and Horses — Management of Dairy, Pigs and Poultry— Utilisation of
Town-Sewage, Irrigation, &c. Sixth Edition. In One Vol., 1,250 pp., half-
bound, profusely Illustrated, 125.
“ The aim of the author has been to make his work at once comprehensive and trustworthy,

and in this aim he has succeeded to a degree which entitles him to much credit."—Jllor7zz‘7zg
Advertiser. “ N o farmer should be without this book.”—Ba7zlmry Guardian.

-. Agricultural Engineering.

FARIlI ENGINEERING, THE COMPLETE TEXT-BOOK 0F.
Comprising Draining and Embanking; Irrigation and Water Supply; Farm
Roads, Fences, and Gates; Farm Buildings, their Arrangement and Con-
struction,with Plans and Estimates; Barn Implements and Machines; Field
Implements and Machines; Agricultural Surveying, Levelling, &c. By Prof.
JOHN SCOTT, Editor of the “ Farmers’ Gazette,” late Professor of Agriculture
and Rural Economy at the Royal Agricultural College, Cirencester, &c. &c.
In One VOL, 1,150 pages, half—bound, with over 600 Illustrations, 125.

“Written with great care, as well as with knowledge and ability. The author has done his
work well ; we have found him a very trustworthy guide wherever we have tested his statements.
The volume will be of great value to agricultural students."—illark Lane Express.

“ For a young agriculturist we know of :no handy volume likely to be more usefully studied."
——Bell’s IVeekéy Alesseuger.

English Agriculture.
THE FIELDS OF GREAT BRITAIN : A Text-Book of

Agriculture, adapted to the Syllabus of the Science and Art Department.

For Elementary and Advanced Students. By HUGH CLEMENTS (Board of

Trade). Second Ed.,Revised,with Additions. r8mo, as. 641. cl.

“Amost comprehensive volume, giving a mass of information."—A;,rrz‘mltural Economist.

“It is a long time since we have seen a book which has pleased us more, or which contains
such a vast and useful fund of knowledge.”—Educatioual Times.

Tables for Farmers, ete.
TABLES, MEMORANDA, AND CALCULATED RESULTS

for Farmers, Grazz'ers, Agricultural Students, Surveyors, Land Agents Auc-
tioneers, etc. With a New System of Farm Book-keepina. Selected and
Arranged bySIDxEY FRANCIS. Second Edition, Rewsed. 272 pp., waist-
coat-pocket Size, 15. 6d. limp leather.

" Weighing less than I 02., and occupying no more space than a match box, it contains a mass
of facts and calculations which has never before, in such handy form, been obtainable. , Every
operation on the farm is dealt with. The work may be taken as thoroughly accurate, the whole of
the tables having been revised by Dr. Fream. We cordially recommend it."—Bcll’s ”fee/sly
Messenger.

. “Amarvellous little book. . . . The agriculturist who possesses himself of it will not be
disappomted with his investmt nt.”—— The Farm.

AGRICULTURE, FARMING, GARDENING, etc. 37

 

Farm and Estate Book-keeping.
BOOK-KEEPING FOR FARMERS (‘5- ESTATE OWNERS.
A Practical Treatise, presenting, in Three Plans, 3. System adapted for all
Classes of Farms. By JOHNSON M.WOODMAN, CharteredAccountant. Second
Edition, Revised. Cr. 8vo, 3s. 6d. cl. bds. ; or 25. 6d. cl. 11mp.
” The volume is a capital study of a most important subject.”—Agrieultzeral Gazette.
. “ Will be found of great assistance by those who intend to commence a system Of book-keep-
ing, the author’s examples being clear and explicit, and his explanations, while full and accurate,
being to a large extent free from technicalities.”—Li7/e Stock yozernal.

Farm Account Boole. , ,
WOODMAN’S YEARLY FA RM ACCOUNT BOOK. Givmg
3 Weekly Labour Account and Diary, and showing the Income and Expen-
diture under each Department of Crops, Live Stock, Dairy, &c. &c. With
Valuation, Proﬁt and Loss Account, and Balance Sheet at the end of the
Year, and an Appendix of Forms. Ruled and Headed for Entering a Com-
plete Record of the Farming Operations. By JOHNSON M. WOODMAN,
Chartered Accountant. Folio. 75. 6d. halkbound. _ [culture
”Contains every requisite form for keeping farm accounts readily and accurately."—Agri—

Early Fruits, Flowers and Vegetables.
THE FORCING GARDEN ; or, How to Grow Early Fruits,
Flowers, and Vegetables. With Plans and Estimates for Building Glass-
houses, Pits and Frames. By SAMUEL WOOD. Crown 8vo, 3s. 6d. cloth. .
“ A good book, and fairly ﬁlls a place that was in some degree vacant. The book is written “'lth
great care, and contains a great deal of valuable teaching.”—Garderzers’ llIagazz'ue.
_“ Mr. Wood’s book is an original and exhaustive answer to the question ‘ How to Grow Early
Fruits, Flowers and Vegetables? ’ ”—Land and Water.

Good Gardening.
A PLAIN GUIDE TO GOOD GARDENING; or, How to Grow
Vegetables, Fruits,and Flowers. With Practical Notes on Soils, Manures,
Seeds, Planting, Laying-out of Gardens and Grounds, &c. By S. WOOD.

Fourth Edition, with numerous Illustrations. Crown 8vo, 3s. 6d. cloth.

"A very good book, and one to be highly recommended as a practical guide. The practical
directions are excellent."-—Ar}zenaum.

“ ay be recommended to young gardeners, cottagers, and specially to amateurs, for the
plain, simple, and trustworthy information it gives on common matters too often neglected."—
Gardeners’ Chronicle.

Gainful Gardening.

MULTUM-IN-PARVO GARDENING; or, How to make One

Acre of Land produce £620 a-year by the Cultivation of Fruits and Vegetables ;

also, How to Grow Flowers in Three Glass Houses, so as to realise £176 per

annum clear Proﬁt. By S. WOOD. Fifth Edition. Crown 8vo, rs. sewed.

“We are bound to recommend it as not only suited to the case of the amateur and gentleman's
gardener, but to the market grower."-—Gardeners’ Magazine.

Gardening for Ladies.

THE LADIES’ M ULTUM-IN-PA R VO FLO IVER GARDEN,

and Amateurs’ Complete Guide. By S. WOOD. With Illusts. Cr. 8vo, 35. 6d. cl.

“ This volume contains a good deal of sound, common sense instruction.”—Flon'st.

"Full of shrewd hints and useful instructions, based on a lifetime of experience."—Scotsman.
Receipts for Gardeners. ._

GARDEN RECEIPTS. By C. W. QUIN. Izmo, Is. 6d. cloth.

"A useful and handy book, containing a good deal of valuable information.”—Athenaum.
Market Gardening.

MA RKET A ND KITCHEN GA RDENING. By Contributors

to “The Garden.” Compiled by C. W. SHAW, late Editor of “Gardening

Illustrated.” Izmo, 3s. 6d. cloth boards.
5‘ The most valuable compendium of kitchen and market-garden work published."——Farmer.

Cottage Gardening. >
COTTAGE GARDENING ; or, Flowers, Fruits, and Vegetables for
Small Gardens. By E. HOBDAY. 121110, 1’s. 6d. cloth limp.

Potato Culture.
POTATOES: How to Grow and Show T/zcm. A Practical Guide

to the Cultivation and General Treatment of_ the Potato. By JAMES PINK.
Second Edition. Crown 8vo, 25. cloth. '

38 CROSBY LOCKWOOD (5' SON’S CATALOGUE.
LAND AND ESTATE MANAGEMENT, LAW, etc.

 

 

Hudson’s Land Valaer’s Pocket-Book.
THE LAND VALUER’S BEST ASSISTANT: Being Tables

on a very much Improved Plan, for Calculating the Value of Estates. With
Tables for reducing Scotch, Irish, and Provmmal Customary Acres to Statute
Measure, &c. By R. HUDSON, C.E. New Edition. Royal 32mo, leather,
elastic band, 45.

“This new edition includes tables for ascertaining the value of leases for any term of years
and for sh0wing how to lay out plots of ground of certain acres in forms, square. round, &c., with
yaluahle rules for ascertaining the probable worth of standing timber to any amount; and is of
tncalculable value to the country gentleman and professional nian."—Farmers’ yournal.

Ewart’s Land Improver’s Pocket-Book.

THE LAND IMPRO VER’S POCKET-BOOK OF FORMUL/E,
TABLES and MEMORA NDA required in any Computation relating to the
Permanent Improvement of Landed Property. ByJOHN EWART, Land Surveyor
and Agricultural Engineer. Second Edition, Revised. Royal 32mo, oblong,
leather, gilt edges, with elastic band, 45.

" A compendious and handy little volume.”—Spea‘ator.

Complete Agricultural Surveyor’s Pocket-Book.

THE LAND VAL UER’S AND LAND IMPRO VER'S COM—

PLE TE POCKET-BOOK. Consisting of the above Two Works bound to-

gether. Leather, gilt edges, with strap, 75. 6d.

“ Hudson’s book is the best ready-reckoner on matters relating to the valuation of land and
crops, and its combination with Mr. Ewart's work greatly enhances the value and usefulness of the
latter-mentioned. . . . It is most useful as a manual for reference."—North of England Farmer.

Auctioneer’s Assistant.

THE APPRAISER, A UCTIONEER, BROKER, HOUSE AND
ESTA TE A GENT AND VALUER’S POCKET ASSISTANT, tor the Valua-
tion for Purchase, Sale, or Renewal of Leases, Annuities and ReverSions, and
0: property generally; with Prices for Inventories, &c. By JOHN WHEELER,
Valuer, &c. Fifth Edition, re-written and greatly extended by C. NORRIS,
Surveyor, Valuer, &c. Royal 32ino, 5s. cloth.
“ A neat and concise book of reference, containing an admirable and clearly-arranged list of
prices forinventories, and a very practical guide to determine the value of furniture.&c."—Standard.
“ Contains a large quantity of varied and useful information as to the valuation for purchase,
sale. or renewal of leases, annuities and reversions, and of property generally. with prices for
inventories, and a guide to determine the value of interior ﬁttings and other etfects."—Bz¢ilder.

Auctioneerz’ng.
AUCTIONEERS: THEIR DUTIES AND LIABILITIES.

A Manual of Instruction and Counsel for the Young Auctioneer. By ROBERT
SQUIBBS, Auctioneer. Second Edition, Revised and partly Re-written. Demy
8vo, 125. 6d. cloth.

“ The position and duties of auctioneers treated compendiously and clearly."—Bm’lder.
“Every auctioneer ought to possess a copy of this excellent work."—lronmonger.

“ 0f great value to the profession. . . . We readily welcome this book from the fact that it
treats the subject in a manner somewhat new to the profession."—E:tales Gazette.

Legal Guide for Pawnbrokers.

THE PA WNBROKERS’, FACTORS’ AND MERCHANTS’
GUIDE TO THE LA W OF LOA NS AND PLEDGES. With the
Statutes and a Digest of Cases on Rights and Liabilities, Civil and Criminal,
as to Loans and Pledges of Goods, Debentures, Mercantile and other Se-
curities. By H. C. FOLKARD, Esq., Barrister-at-Law, Author of “The Law
of Slander and Libel,” &c. With Additions and Corrections. F cap. 8vo,
35. 6d. cloth. .

“ This work contains simply everything that requires to be known concerning the department
of the law of which it treats. We can safely commend the book as unique and very nearly perfect."
—[ron.

“ The task undertaken by Mr. Folkard has been very satisfactoril performed. . . Such ex-
plana‘gons as are needful have been supplied with great clearness an with due regard to brevity.”
Cz‘ly ress. -

I

LAND AND ESTATE MANAGEMENT, LA W, etc. 39

 

Law of Patents.
PATENTS FOR INVENTIONS, AND HOW TO PROCURE
THEM. Compiled for the Use of Inventors, Patentees and others. By
G. C2. M. HARDINGHAM, Assoc.Mem.Inst.C.E., &c. Demy 8vo, cloth, price
25. 6 .

Metropolitan Ratcng Appeals.
REPORTS OF APPEALS HEARD BEFORE THE COURT
OF GENERAL ASSESSMENT SESSIONS, from the Year 1871 to I885.
By EDWARD RYDE and ARTHUR LYON RYDE. Fourth Edition, brought down
to the Present Date, with an Introduction to the Valuation (Metropolis) Act,
1869, and an Appendix by WALTER C. RYDE, ot the Inner Temple, Barrister-
at-Law. 8vo, 16s. cloth.
“ A useful work. occupying a place mid-way between a handbook for a lawyer and a guide to
the surveyor. It is compiled by a gentleman eminent in his profession as a land agent, whose spe-
cialty, it is acknowledged, lies i the direction of assessing property for rating purposes.”—Land

Agents' Record. ,
“ It is an indispensable wo of reference for all engaged in assessment busmess.”-—f7ourna1

(y‘l Gas Lighting.
House Preperty.
HANDBOOK OF HOUSE PROPERTY. A Popular and Practi-
cal Guide to the Purchase, Mortgage, Tenancy, and Compulsory Sale of
Houses and Land, including the Law of DllapldathHS and Fixtures; with
Examples of all kinds of Valuations, Useful Information on Building, and
Suggestive Elucidations of Fine Art. By E. L. TARBUCK, Architect and
Surveyor. Fourth Edition, Enlarged. Izmo, ss. cloth.
“ The advice is thoroughly practical."—La‘w journal. _
“For all who have dealings with house property, this is an indispensable guide.”—Decoratz‘on.
“Carefully brought u to date, and much improved by the addition of a division on fine art.
“ A well-written and t iouglitful work."-Land Agent’s Record.

Iuwooa’s Estate Tables.
TABLES FOR THE PURCHASING OF ESTATES, Freehold,
Copyhold, or Leasehold; Annuities, Advowsons, etc., and for the Renewing of
Leases held under Cathedral Churches, Colleges, or other Corporate bodies,
for Terms ot Years certain, and for Lives; also for Valuing Reversionary
Estates, Deferred Annuities, Next Presentations, &c. ; to ether with SMART’S
Five Tables of Compound Interest, and an Extension 0 the same to Lower
and Intermediate Rates. By W. Inwoon. 23rd Edition, with considerable
Additions, and new and valuable Tables of Logarithms for the more Diﬁicult
Computations of the Interest of Money, Discount,Annuities, &c., by M. FEDOR
THOMAN, oi the Société Crédit Mobilier of Paris. Crown 8vo, 8s. cloth.
"Those interested in the purchase and sale of estates, and in the adjustment of compensation

cases, as wellas in transactions in annuities, life insurances, &c., will ﬁnd the present edition of

eminent service."—Engineering. _ _
“ ‘Inwood's Tables ' still maintain a most enViable reputation. The new issue has been enriched

by large additional contributions by M. Fedor Thoman, whose carefully arranged Tables cannot
fail to e of the utmost utility."—Mi7zing yournal. _‘_ ‘
Agricultural and Tenant-Right Valuation.
THE AGRICULTURAL AND TENANT-RIGHT-VALUER’S
ASSISTANT. A Practical Handbook. on Measuring and Estimating the
Contents, Weights and Values of Agricultural Produce and Timber, the
Values of Estates and Agricultural Labour, Forms of Tenant-Right-Valua-
tions, Scales 01 Compensation under the Agricultural Holdings Act, 1883,
&c. &c. By TOM BRIGHT, Agricultural Surveyor. Crown 8vo, 35. 6d. cloth.
" Full of tables and exam les in connection with the valuation of tenant-right, estates. labour,
contents, and weights of tim er, and farm produce of all kinds."—Agrz‘eultural Gazette.
" An eminently practical handbook, full of practical tables and data of undoubted interest and
value to surveyors and auctioneers in preparing valuations of all kinds.”—Farmer.

Plantatwus and Under/woods.
POLE PLANTATIONS AND UNDERWOODS: A Practical
Handbook on Estimating the Cost of Forming, Renovating, Improving and
Grubbing Plantations and Underwoods, their Valuation for Purposes of
Transfer, Rental, Sale or Assessment. By TOM BRIGHT, F.S.Sc., Author of
“The Agricultural and Tenant-Right-Valuer’s Assistant,” &c. Crown 8vo,

35. 6d. cloth. [just published.
“ Will be found very useful to those who are actually engaged in managing wood."—Bell's
Weekly Messenger.

To valuers. foresters and agents it will be a welcome aid."—Nort}z British Aghaelturz’st.
"Well calculated to assist the valuer in the discharge of his duties. and of undoubted interest
and use both to surveyors and auctioneers in preparing valuations of all kinds."—Keut Herald.

4o CROSBY LOCKWOOD 63° SON'S CATALOGUE.

A Complete Epitome of the Laws of this Country.

EVERY MAN’S OWN LAWYER : A Handy-Book of the
Principles of Law and Equity. By A BARRISTER. Twenty-ninth Edition.
Revised and Enlarged. Including the Legislation of 1891, and including
careful digests of The Tithe Act, 1891; the Mortmain and Charitable Uses
Act, 1891; the Charitable Trusts (Recovery) Act, 1891; the Forged Transfers
Act, 1891; the Custody of Children Act, 1891; the Slander of Women Act,
1891; the Public Health (London) Act, 1891; the Stamp Act, 1891; the
Savings Bank Act, 1891 ; the Elementary Education (“ Free Education”) Act,
1891; the County Councils (Elections) Act, 1891; and the Land Registry
(.Uiddlesex Deeds) Act, 1891; while other new Acts have been duly noted.
Crown 8vo, 688 pp., price 63. 8d. (saved at every consultation! ), strongly
bound in cloth. [just published.

*,* THE BOOK WILL BE FOUND TO COMPRISE (AMONGST
OTHER MATTER)—

THE RIGHTS AND WRONGS OF INDIVIDUALS—LANDLORD AND TENANT—VENDORS
AND PURCHASERS—PARTNERS AND AGENTS—COMPANIES AND ASSOCIATIONS—MASTERS,
SERVANTS AND \VORKMEN—LEASES AND MORTGAGES—CHURCH AND CLERGY. RITUAL
-—LlBEL AND SLANDER—CONTRACTS AND AGREEMENTS-BONDS AND BILLS OF SALE—
CHEQUES, BILLS AND NOTES —RAILWAY AND SHIPPING LAW—BANKRUPTCY AND IN-
SL'RANCE—BORRO\VERS. LENDERS AND SURETIES—CRIMINAL LAW—PARLIAMENTARY
ELECTIONS—COUNTY COUNCILS—MUNICIPAL CORPORATIONS—PARISH LAW, CHURCH-
WARDENS, ETC—PUBLIC HEALTH AND NUISANCEs—FRIENDLY AND (BUILDING
SOCIETIES-COPYRIGHT AND PATENTS—TRADE MARKS AND DESIGNS—HUSBAND AND
WIFE. DIVORCE, ETC—TRUSTEES AND EXECUTORS—INTESTACY, LAW CIT—GUARDIAN
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AND DOGS—INNKEEPERS, LICENSING, ETC—FORMS OF WILLS, AGREEMENTS, ETC. ETC.

Nora—The object of this work is to enable those who consult it to hel them-
selves to the law; and thereby to dispense, as far as possible, with pro essional
assistance and advice. There are many wrongs and grievances which persons sub-
mit to from time to time through not knowing how or where to apply for redress ; and
many persons have as great a dread of a lawyer’s oﬁice as of a lion’s den. With this
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a wrong redressed; many a right reclaimed; many a law suit avoided; and many
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bodying recent decisions and enactments.

*** OPINIONS on THE PRESS.

“ It is a complete code of English Law, written in plain language, which all can understand.
. Should be in the hands of every business man, and all who wish to abolish lawyers’ bills.”—

ll’ce/cly Times.

“ A useful and concise epitome of the law, compiled with considerable care.”—Lazu Magazine.

“A complete digest of the most useful facts which constitute English law.”——Globe.

“ Adniirably done, admirably arranged, and admirably cheap."—Leeds Aleraery.

“ A concise. cheap and complete epitome of the English law 50 plainly written that he who
runs may read, and he who reads may understand.”—Figaro.

“ A dictionary of legal facts well put together. The book is a very useful one. "—Spectator.

“ The latest edition of this popular book ought to be in every business establishment, and on
every library table."—S/zep"z‘eld Post.

Private Bill Legislation and Provisional Orders.
HANDBOOK FOR THE USE OF SOLICITORS AND EN-

GINEERS En aged in Promoting Private Acts of Parliament and Provi-
sional Orders, or the Authorization of Railways, Tramways, Works for the
Supply of Gas and Water, and other undertakings of a like character. By
L. LIVINGSTON MACASSEY, of the Middle Temple, Barrister-at-Law,
M.Inst.C.E.; Author of“ Hints on Water Supply.” 8vo, 950 pp., 255. cloth.
“ The volume is a desideratum on a subject which can be only acquired by practical experi-
ence, and the order of procedure in Private Bill Legislation and Provisional Orders is followed.

The author's suggestions and notes will be found of great value to engineers and others profesaon-
ally engaged in this class of practice. "—Buz‘ldz‘ng News.

“ The author‘s double experience as an engineer and barrister has eminently qualiﬁed him for
the task. and enabled him to approach the subject alike from an engineering and legal point of
view. The volume will be found a great he! both to engineers and lawyers engaged in promoting
Private Acts ct Parliament and Provisional 8rders."—Loeal Government Chronicle.

OGDEN, SMALE AND CO. LIMITED, PRINTERS, GREAT SAFFRON HILL. 8.0.