id	sid	tid	token	lemma	pos
work_ydypvtvejbby3ieiuc7quu6yge	1	1	EasyChair	EasyChair	NNP
work_ydypvtvejbby3ieiuc7quu6yge	1	2	Preprint	Preprint	NNP
work_ydypvtvejbby3ieiuc7quu6yge	1	3	№	№	NN
work_ydypvtvejbby3ieiuc7quu6yge	1	4	2020	2020	CD
work_ydypvtvejbby3ieiuc7quu6yge	1	5	A	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	1	6	Study	Study	NNP
work_ydypvtvejbby3ieiuc7quu6yge	1	7	on	on	IN
work_ydypvtvejbby3ieiuc7quu6yge	1	8	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	1	9	Sinter	Sinter	NNP
work_ydypvtvejbby3ieiuc7quu6yge	1	10	Brazing	Brazing	NNP
work_ydypvtvejbby3ieiuc7quu6yge	1	11	Joint	Joint	NNP
work_ydypvtvejbby3ieiuc7quu6yge	1	12	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	1	13	Powder	Powder	NNP
work_ydypvtvejbby3ieiuc7quu6yge	1	14	Metal	Metal	NNP
work_ydypvtvejbby3ieiuc7quu6yge	1	15	Components	Components	NNP
work_ydypvtvejbby3ieiuc7quu6yge	1	16	Pujan	Pujan	NNP
work_ydypvtvejbby3ieiuc7quu6yge	1	17	Tripathi	Tripathi	NNP
work_ydypvtvejbby3ieiuc7quu6yge	1	18	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	1	19	George	George	NNP
work_ydypvtvejbby3ieiuc7quu6yge	1	20	Yang	Yang	NNP
work_ydypvtvejbby3ieiuc7quu6yge	1	21	EasyChair	EasyChair	NNP
work_ydypvtvejbby3ieiuc7quu6yge	1	22	preprints	preprint	NNS
work_ydypvtvejbby3ieiuc7quu6yge	1	23	are	be	VBP
work_ydypvtvejbby3ieiuc7quu6yge	1	24	intended	intend	VBN
work_ydypvtvejbby3ieiuc7quu6yge	1	25	for	for	IN
work_ydypvtvejbby3ieiuc7quu6yge	1	26	rapid	rapid	JJ
work_ydypvtvejbby3ieiuc7quu6yge	1	27	dissemination	dissemination	NN
work_ydypvtvejbby3ieiuc7quu6yge	1	28	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	1	29	research	research	NN
work_ydypvtvejbby3ieiuc7quu6yge	1	30	results	result	NNS
work_ydypvtvejbby3ieiuc7quu6yge	1	31	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	1	32	are	be	VBP
work_ydypvtvejbby3ieiuc7quu6yge	1	33	integrated	integrate	VBN
work_ydypvtvejbby3ieiuc7quu6yge	1	34	with	with	IN
work_ydypvtvejbby3ieiuc7quu6yge	1	35	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	1	36	rest	rest	NN
work_ydypvtvejbby3ieiuc7quu6yge	1	37	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	1	38	EasyChair	EasyChair	NNP
work_ydypvtvejbby3ieiuc7quu6yge	1	39	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	2	1	November	November	NNP
work_ydypvtvejbby3ieiuc7quu6yge	2	2	24	24	CD
work_ydypvtvejbby3ieiuc7quu6yge	2	3	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	2	4	2019	2019	CD
work_ydypvtvejbby3ieiuc7quu6yge	2	5	A	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	2	6	Study	Study	NNP
work_ydypvtvejbby3ieiuc7quu6yge	2	7	on	on	IN
work_ydypvtvejbby3ieiuc7quu6yge	2	8	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	2	9	Sinter	Sinter	NNP
work_ydypvtvejbby3ieiuc7quu6yge	2	10	Brazing	Brazing	NNP
work_ydypvtvejbby3ieiuc7quu6yge	2	11	Joint	Joint	NNP
work_ydypvtvejbby3ieiuc7quu6yge	2	12	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	2	13	Powder	Powder	NNP
work_ydypvtvejbby3ieiuc7quu6yge	2	14	Metal	Metal	NNP
work_ydypvtvejbby3ieiuc7quu6yge	2	15	Components	Components	NNP
work_ydypvtvejbby3ieiuc7quu6yge	2	16	Pujan	Pujan	NNP
work_ydypvtvejbby3ieiuc7quu6yge	2	17	Tripathi	Tripathi	NNP
work_ydypvtvejbby3ieiuc7quu6yge	2	18	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	2	19	George	George	NNP
work_ydypvtvejbby3ieiuc7quu6yge	2	20	Yang	Yang	NNP
work_ydypvtvejbby3ieiuc7quu6yge	2	21	Department	Department	NNP
work_ydypvtvejbby3ieiuc7quu6yge	2	22	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	2	23	Engineering	Engineering	NNP
work_ydypvtvejbby3ieiuc7quu6yge	2	24	Technology	Technology	NNP
work_ydypvtvejbby3ieiuc7quu6yge	2	25	Missouri	Missouri	NNP
work_ydypvtvejbby3ieiuc7quu6yge	2	26	Western	Western	NNP
work_ydypvtvejbby3ieiuc7quu6yge	2	27	State	State	NNP
work_ydypvtvejbby3ieiuc7quu6yge	2	28	University	University	NNP
work_ydypvtvejbby3ieiuc7quu6yge	2	29	4525	4525	CD
work_ydypvtvejbby3ieiuc7quu6yge	2	30	Downs	Downs	NNPS
work_ydypvtvejbby3ieiuc7quu6yge	2	31	Drive	Drive	NNP
work_ydypvtvejbby3ieiuc7quu6yge	2	32	St.	St.	NNP
work_ydypvtvejbby3ieiuc7quu6yge	2	33	Joseph	Joseph	NNP
work_ydypvtvejbby3ieiuc7quu6yge	2	34	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	2	35	MO	MO	NNP
work_ydypvtvejbby3ieiuc7quu6yge	2	36	64507	64507	CD
work_ydypvtvejbby3ieiuc7quu6yge	2	37	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	2	38	USA	USA	NNP
work_ydypvtvejbby3ieiuc7quu6yge	2	39	Abstract	Abstract	NNP
work_ydypvtvejbby3ieiuc7quu6yge	2	40	:	:	:
work_ydypvtvejbby3ieiuc7quu6yge	2	41	The	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	2	42	research	research	NN
work_ydypvtvejbby3ieiuc7quu6yge	2	43	focuses	focus	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	2	44	on	on	IN
work_ydypvtvejbby3ieiuc7quu6yge	2	45	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	2	46	development	development	NN
work_ydypvtvejbby3ieiuc7quu6yge	2	47	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	2	48	a	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	2	49	new	new	JJ
work_ydypvtvejbby3ieiuc7quu6yge	2	50	joint	joint	JJ
work_ydypvtvejbby3ieiuc7quu6yge	2	51	method	method	NN
work_ydypvtvejbby3ieiuc7quu6yge	2	52	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	2	53	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	2	54	sinter	sinter	JJ
work_ydypvtvejbby3ieiuc7quu6yge	2	55	brazing	brazing	NN
work_ydypvtvejbby3ieiuc7quu6yge	2	56	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	2	57	powder	powder	NNP
work_ydypvtvejbby3ieiuc7quu6yge	2	58	metal	metal	NNP
work_ydypvtvejbby3ieiuc7quu6yge	2	59	components	component	NNS
work_ydypvtvejbby3ieiuc7quu6yge	2	60	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	3	1	Various	various	JJ
work_ydypvtvejbby3ieiuc7quu6yge	3	2	kinds	kind	NNS
work_ydypvtvejbby3ieiuc7quu6yge	3	3	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	3	4	powder	powder	NN
work_ydypvtvejbby3ieiuc7quu6yge	3	5	metallurgy	metallurgy	NN
work_ydypvtvejbby3ieiuc7quu6yge	3	6	composition	composition	NN
work_ydypvtvejbby3ieiuc7quu6yge	3	7	were	be	VBD
work_ydypvtvejbby3ieiuc7quu6yge	3	8	tested	test	VBN
work_ydypvtvejbby3ieiuc7quu6yge	3	9	in	in	IN
work_ydypvtvejbby3ieiuc7quu6yge	3	10	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	3	11	sinter	sinter	JJ
work_ydypvtvejbby3ieiuc7quu6yge	3	12	brazing	brazing	NN
work_ydypvtvejbby3ieiuc7quu6yge	3	13	joint	joint	NN
work_ydypvtvejbby3ieiuc7quu6yge	3	14	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	3	15	mainly	mainly	RB
work_ydypvtvejbby3ieiuc7quu6yge	3	16	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	3	17	study	study	VB
work_ydypvtvejbby3ieiuc7quu6yge	3	18	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	3	19	operating	operating	NN
work_ydypvtvejbby3ieiuc7quu6yge	3	20	conditions	condition	NNS
work_ydypvtvejbby3ieiuc7quu6yge	3	21	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	3	22	strength	strength	NN
work_ydypvtvejbby3ieiuc7quu6yge	3	23	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	3	24	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	3	25	joint	joint	NN
work_ydypvtvejbby3ieiuc7quu6yge	3	26	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	4	1	Although	although	IN
work_ydypvtvejbby3ieiuc7quu6yge	4	2	each	each	DT
work_ydypvtvejbby3ieiuc7quu6yge	4	3	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	4	4	these	these	DT
work_ydypvtvejbby3ieiuc7quu6yge	4	5	processes	process	NNS
work_ydypvtvejbby3ieiuc7quu6yge	4	6	brings	bring	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	4	7	about	about	IN
work_ydypvtvejbby3ieiuc7quu6yge	4	8	different	different	JJ
work_ydypvtvejbby3ieiuc7quu6yge	4	9	results	result	NNS
work_ydypvtvejbby3ieiuc7quu6yge	4	10	in	in	IN
work_ydypvtvejbby3ieiuc7quu6yge	4	11	metal	metal	NN
work_ydypvtvejbby3ieiuc7quu6yge	4	12	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	4	13	all	all	DT
work_ydypvtvejbby3ieiuc7quu6yge	4	14	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	4	15	them	-PRON-	PRP
work_ydypvtvejbby3ieiuc7quu6yge	4	16	involve	involve	VBP
work_ydypvtvejbby3ieiuc7quu6yge	4	17	three	three	CD
work_ydypvtvejbby3ieiuc7quu6yge	4	18	basic	basic	JJ
work_ydypvtvejbby3ieiuc7quu6yge	4	19	steps	step	NNS
work_ydypvtvejbby3ieiuc7quu6yge	4	20	:	:	:
work_ydypvtvejbby3ieiuc7quu6yge	4	21	heating	heating	NN
work_ydypvtvejbby3ieiuc7quu6yge	4	22	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	4	23	soaking	soaking	NN
work_ydypvtvejbby3ieiuc7quu6yge	4	24	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	4	25	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	4	26	cooling	cool	VBG
work_ydypvtvejbby3ieiuc7quu6yge	4	27	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	5	1	Heat	heat	NN
work_ydypvtvejbby3ieiuc7quu6yge	5	2	treatment	treatment	NN
work_ydypvtvejbby3ieiuc7quu6yge	5	3	such	such	JJ
work_ydypvtvejbby3ieiuc7quu6yge	5	4	as	as	IN
work_ydypvtvejbby3ieiuc7quu6yge	5	5	heating	heating	NN
work_ydypvtvejbby3ieiuc7quu6yge	5	6	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	5	7	soaking	soak	VBG
work_ydypvtvejbby3ieiuc7quu6yge	5	8	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	5	9	cooling	cooling	NN
work_ydypvtvejbby3ieiuc7quu6yge	5	10	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	5	11	hardening	harden	VBG
work_ydypvtvejbby3ieiuc7quu6yge	5	12	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	5	13	tampering	tamper	VBG
work_ydypvtvejbby3ieiuc7quu6yge	5	14	has	have	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	5	15	been	be	VBN
work_ydypvtvejbby3ieiuc7quu6yge	5	16	investigated	investigate	VBN
work_ydypvtvejbby3ieiuc7quu6yge	5	17	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	6	1	Introduction	introduction	NN
work_ydypvtvejbby3ieiuc7quu6yge	6	2	:	:	:
work_ydypvtvejbby3ieiuc7quu6yge	6	3	Powder	Powder	NNP
work_ydypvtvejbby3ieiuc7quu6yge	6	4	metallurgy	metallurgy	NN
work_ydypvtvejbby3ieiuc7quu6yge	6	5	is	be	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	6	6	a	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	6	7	processing	processing	NN
work_ydypvtvejbby3ieiuc7quu6yge	6	8	method	method	NN
work_ydypvtvejbby3ieiuc7quu6yge	6	9	where	where	WRB
work_ydypvtvejbby3ieiuc7quu6yge	6	10	green	green	JJ
work_ydypvtvejbby3ieiuc7quu6yge	6	11	parts	part	NNS
work_ydypvtvejbby3ieiuc7quu6yge	6	12	are	be	VBP
work_ydypvtvejbby3ieiuc7quu6yge	6	13	compacted	compact	VBN
work_ydypvtvejbby3ieiuc7quu6yge	6	14	using	use	VBG
work_ydypvtvejbby3ieiuc7quu6yge	6	15	dies	die	NNS
work_ydypvtvejbby3ieiuc7quu6yge	6	16	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	6	17	get	get	VB
work_ydypvtvejbby3ieiuc7quu6yge	6	18	sintered	sinter	VBN
work_ydypvtvejbby3ieiuc7quu6yge	6	19	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	7	1	Sintering	sinter	VBG
work_ydypvtvejbby3ieiuc7quu6yge	7	2	offers	offer	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	7	3	equivalent	equivalent	JJ
work_ydypvtvejbby3ieiuc7quu6yge	7	4	strength	strength	NN
work_ydypvtvejbby3ieiuc7quu6yge	7	5	as	as	IN
work_ydypvtvejbby3ieiuc7quu6yge	7	6	a	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	7	7	cast	cast	NN
work_ydypvtvejbby3ieiuc7quu6yge	7	8	iron	iron	NN
work_ydypvtvejbby3ieiuc7quu6yge	7	9	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	7	10	superior	superior	JJ
work_ydypvtvejbby3ieiuc7quu6yge	7	11	design	design	NN
work_ydypvtvejbby3ieiuc7quu6yge	7	12	flexibility	flexibility	NN
work_ydypvtvejbby3ieiuc7quu6yge	7	13	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	7	14	produces	produce	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	7	15	Near	Near	NNP
work_ydypvtvejbby3ieiuc7quu6yge	7	16	-	-	HYPH
work_ydypvtvejbby3ieiuc7quu6yge	7	17	Net-	Net-	NNP
work_ydypvtvejbby3ieiuc7quu6yge	7	18	Shaped	Shaped	NNP
work_ydypvtvejbby3ieiuc7quu6yge	7	19	(	(	-LRB-
work_ydypvtvejbby3ieiuc7quu6yge	7	20	NNS	NNS	NNP
work_ydypvtvejbby3ieiuc7quu6yge	7	21	)	)	-RRB-
work_ydypvtvejbby3ieiuc7quu6yge	7	22	parts	part	NNS
work_ydypvtvejbby3ieiuc7quu6yge	7	23	at	at	IN
work_ydypvtvejbby3ieiuc7quu6yge	7	24	lower	low	JJR
work_ydypvtvejbby3ieiuc7quu6yge	7	25	costs	cost	NNS
work_ydypvtvejbby3ieiuc7quu6yge	7	26	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	7	27	it	-PRON-	PRP
work_ydypvtvejbby3ieiuc7quu6yge	7	28	reduces	reduce	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	7	29	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	7	30	need	need	NN
work_ydypvtvejbby3ieiuc7quu6yge	7	31	for	for	IN
work_ydypvtvejbby3ieiuc7quu6yge	7	32	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	7	33	machining	machining	NN
work_ydypvtvejbby3ieiuc7quu6yge	7	34	process	process	NN
work_ydypvtvejbby3ieiuc7quu6yge	7	35	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	8	1	Now	now	RB
work_ydypvtvejbby3ieiuc7quu6yge	8	2	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	8	3	sinter	sinter	NN
work_ydypvtvejbby3ieiuc7quu6yge	8	4	brazing	brazing	NN
work_ydypvtvejbby3ieiuc7quu6yge	8	5	is	be	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	8	6	an	an	DT
work_ydypvtvejbby3ieiuc7quu6yge	8	7	established	establish	VBN
work_ydypvtvejbby3ieiuc7quu6yge	8	8	joining	joining	NN
work_ydypvtvejbby3ieiuc7quu6yge	8	9	process	process	NN
work_ydypvtvejbby3ieiuc7quu6yge	8	10	for	for	IN
work_ydypvtvejbby3ieiuc7quu6yge	8	11	Powder	Powder	NNP
work_ydypvtvejbby3ieiuc7quu6yge	8	12	Metal	Metal	NNP
work_ydypvtvejbby3ieiuc7quu6yge	8	13	components	component	NNS
work_ydypvtvejbby3ieiuc7quu6yge	8	14	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	8	15	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	8	16	it	-PRON-	PRP
work_ydypvtvejbby3ieiuc7quu6yge	8	17	is	be	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	8	18	often	often	RB
work_ydypvtvejbby3ieiuc7quu6yge	8	19	used	use	VBN
work_ydypvtvejbby3ieiuc7quu6yge	8	20	in	in	IN
work_ydypvtvejbby3ieiuc7quu6yge	8	21	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	8	22	production	production	NN
work_ydypvtvejbby3ieiuc7quu6yge	8	23	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	8	24	automotive	automotive	JJ
work_ydypvtvejbby3ieiuc7quu6yge	8	25	applications	application	NNS
work_ydypvtvejbby3ieiuc7quu6yge	8	26	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	9	1	A	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	9	2	successfully	successfully	RB
work_ydypvtvejbby3ieiuc7quu6yge	9	3	brazed	brazed	JJ
work_ydypvtvejbby3ieiuc7quu6yge	9	4	joint	joint	JJ
work_ydypvtvejbby3ieiuc7quu6yge	9	5	relies	relie	NNS
work_ydypvtvejbby3ieiuc7quu6yge	9	6	widely	widely	RB
work_ydypvtvejbby3ieiuc7quu6yge	9	7	on	on	IN
work_ydypvtvejbby3ieiuc7quu6yge	9	8	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	9	9	interaction	interaction	NN
work_ydypvtvejbby3ieiuc7quu6yge	9	10	between	between	IN
work_ydypvtvejbby3ieiuc7quu6yge	9	11	brazing	braze	VBG
work_ydypvtvejbby3ieiuc7quu6yge	9	12	alloy	alloy	NNP
work_ydypvtvejbby3ieiuc7quu6yge	9	13	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	9	14	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	9	15	joining	joining	NN
work_ydypvtvejbby3ieiuc7quu6yge	9	16	surfaces	surface	NNS
work_ydypvtvejbby3ieiuc7quu6yge	9	17	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	9	18	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	9	19	sintering	sinter	VBG
work_ydypvtvejbby3ieiuc7quu6yge	9	20	atmosphere	atmosphere	NN
work_ydypvtvejbby3ieiuc7quu6yge	9	21	conditions	condition	NNS
work_ydypvtvejbby3ieiuc7quu6yge	9	22	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	10	1	The	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	10	2	purpose	purpose	NN
work_ydypvtvejbby3ieiuc7quu6yge	10	3	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	10	4	testing	test	VBG
work_ydypvtvejbby3ieiuc7quu6yge	10	5	brazing	brazing	NN
work_ydypvtvejbby3ieiuc7quu6yge	10	6	materials	material	NNS
work_ydypvtvejbby3ieiuc7quu6yge	10	7	is	be	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	10	8	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	10	9	test	test	VB
work_ydypvtvejbby3ieiuc7quu6yge	10	10	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	10	11	capabilities	capability	NNS
work_ydypvtvejbby3ieiuc7quu6yge	10	12	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	10	13	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	10	14	brazing	braze	VBG
work_ydypvtvejbby3ieiuc7quu6yge	10	15	filler	filler	NN
work_ydypvtvejbby3ieiuc7quu6yge	10	16	materials	material	NNS
work_ydypvtvejbby3ieiuc7quu6yge	10	17	in	in	IN
work_ydypvtvejbby3ieiuc7quu6yge	10	18	order	order	NN
work_ydypvtvejbby3ieiuc7quu6yge	10	19	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	10	20	produce	produce	VB
work_ydypvtvejbby3ieiuc7quu6yge	10	21	sinter	sinter	NN
work_ydypvtvejbby3ieiuc7quu6yge	10	22	brazed	brazed	JJ
work_ydypvtvejbby3ieiuc7quu6yge	10	23	components	component	NNS
work_ydypvtvejbby3ieiuc7quu6yge	10	24	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	10	25	processed	process	VBN
work_ydypvtvejbby3ieiuc7quu6yge	10	26	through	through	IN
work_ydypvtvejbby3ieiuc7quu6yge	10	27	sinter	sinter	JJ
work_ydypvtvejbby3ieiuc7quu6yge	10	28	brazing	brazing	NN
work_ydypvtvejbby3ieiuc7quu6yge	10	29	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	10	30	heat	heat	VB
work_ydypvtvejbby3ieiuc7quu6yge	10	31	treatment	treatment	NN
work_ydypvtvejbby3ieiuc7quu6yge	10	32	with	with	IN
work_ydypvtvejbby3ieiuc7quu6yge	10	33	air	air	NN
work_ydypvtvejbby3ieiuc7quu6yge	10	34	quench	quench	NNP
work_ydypvtvejbby3ieiuc7quu6yge	10	35	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	10	36	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	10	37	compare	compare	VB
work_ydypvtvejbby3ieiuc7quu6yge	10	38	different	different	JJ
work_ydypvtvejbby3ieiuc7quu6yge	10	39	brazing	brazing	NN
work_ydypvtvejbby3ieiuc7quu6yge	10	40	pastes	paste	NNS
work_ydypvtvejbby3ieiuc7quu6yge	10	41	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	10	42	determine	determine	VB
work_ydypvtvejbby3ieiuc7quu6yge	10	43	their	-PRON-	PRP$
work_ydypvtvejbby3ieiuc7quu6yge	10	44	quality	quality	NN
work_ydypvtvejbby3ieiuc7quu6yge	10	45	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	10	46	strength	strength	NN
work_ydypvtvejbby3ieiuc7quu6yge	10	47	to	to	IN
work_ydypvtvejbby3ieiuc7quu6yge	10	48	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	10	49	powder	powder	NN
work_ydypvtvejbby3ieiuc7quu6yge	10	50	metal	metal	NN
work_ydypvtvejbby3ieiuc7quu6yge	10	51	components	component	NNS
work_ydypvtvejbby3ieiuc7quu6yge	10	52	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	11	1	Product	product	NN
work_ydypvtvejbby3ieiuc7quu6yge	11	2	designs	design	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	11	3	within	within	IN
work_ydypvtvejbby3ieiuc7quu6yge	11	4	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	11	5	powder	powder	NN
work_ydypvtvejbby3ieiuc7quu6yge	11	6	metal	metal	NN
work_ydypvtvejbby3ieiuc7quu6yge	11	7	industries	industry	NNS
work_ydypvtvejbby3ieiuc7quu6yge	11	8	utilize	utilize	VBP
work_ydypvtvejbby3ieiuc7quu6yge	11	9	joining	join	VBG
work_ydypvtvejbby3ieiuc7quu6yge	11	10	techniques	technique	NNS
work_ydypvtvejbby3ieiuc7quu6yge	11	11	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	11	12	assemble	assemble	VB
work_ydypvtvejbby3ieiuc7quu6yge	11	13	a	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	11	14	component	component	NN
work_ydypvtvejbby3ieiuc7quu6yge	11	15	from	from	IN
work_ydypvtvejbby3ieiuc7quu6yge	11	16	different	different	JJ
work_ydypvtvejbby3ieiuc7quu6yge	11	17	compacted	compacted	JJ
work_ydypvtvejbby3ieiuc7quu6yge	11	18	pieces	piece	NNS
work_ydypvtvejbby3ieiuc7quu6yge	11	19	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	12	1	This	this	DT
work_ydypvtvejbby3ieiuc7quu6yge	12	2	enables	enable	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	12	3	PM	pm	NN
work_ydypvtvejbby3ieiuc7quu6yge	12	4	industries	industry	NNS
work_ydypvtvejbby3ieiuc7quu6yge	12	5	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	12	6	provide	provide	VB
work_ydypvtvejbby3ieiuc7quu6yge	12	7	cost	cost	NN
work_ydypvtvejbby3ieiuc7quu6yge	12	8	-	-	HYPH
work_ydypvtvejbby3ieiuc7quu6yge	12	9	effective	effective	JJ
work_ydypvtvejbby3ieiuc7quu6yge	12	10	complex	complex	JJ
work_ydypvtvejbby3ieiuc7quu6yge	12	11	parts	part	NNS
work_ydypvtvejbby3ieiuc7quu6yge	12	12	for	for	IN
work_ydypvtvejbby3ieiuc7quu6yge	12	13	various	various	JJ
work_ydypvtvejbby3ieiuc7quu6yge	12	14	applications	application	NNS
work_ydypvtvejbby3ieiuc7quu6yge	12	15	compared	compare	VBN
work_ydypvtvejbby3ieiuc7quu6yge	12	16	to	to	IN
work_ydypvtvejbby3ieiuc7quu6yge	12	17	traditional	traditional	JJ
work_ydypvtvejbby3ieiuc7quu6yge	12	18	fabrication	fabrication	NN
work_ydypvtvejbby3ieiuc7quu6yge	12	19	practices	practice	NNS
work_ydypvtvejbby3ieiuc7quu6yge	12	20	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	13	1	Sinter	sinter	NN
work_ydypvtvejbby3ieiuc7quu6yge	13	2	-	-	HYPH
work_ydypvtvejbby3ieiuc7quu6yge	13	3	brazing	brazing	NN
work_ydypvtvejbby3ieiuc7quu6yge	13	4	is	be	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	13	5	one	one	CD
work_ydypvtvejbby3ieiuc7quu6yge	13	6	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	13	7	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	13	8	methods	method	NNS
work_ydypvtvejbby3ieiuc7quu6yge	13	9	for	for	IN
work_ydypvtvejbby3ieiuc7quu6yge	13	10	joining	join	VBG
work_ydypvtvejbby3ieiuc7quu6yge	13	11	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	13	12	parts	part	NNS
work_ydypvtvejbby3ieiuc7quu6yge	13	13	easily	easily	RB
work_ydypvtvejbby3ieiuc7quu6yge	13	14	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	13	15	efficiently	efficiently	RB
work_ydypvtvejbby3ieiuc7quu6yge	13	16	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	14	1	Brazing	braze	VBG
work_ydypvtvejbby3ieiuc7quu6yge	14	2	mechanism	mechanism	NN
work_ydypvtvejbby3ieiuc7quu6yge	14	3	can	can	MD
work_ydypvtvejbby3ieiuc7quu6yge	14	4	be	be	VB
work_ydypvtvejbby3ieiuc7quu6yge	14	5	complex	complex	JJ
work_ydypvtvejbby3ieiuc7quu6yge	14	6	;	;	:
work_ydypvtvejbby3ieiuc7quu6yge	14	7	however	however	RB
work_ydypvtvejbby3ieiuc7quu6yge	14	8	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	14	9	it	-PRON-	PRP
work_ydypvtvejbby3ieiuc7quu6yge	14	10	has	have	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	14	11	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	14	12	potential	potential	NN
work_ydypvtvejbby3ieiuc7quu6yge	14	13	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	14	14	reduce	reduce	VB
work_ydypvtvejbby3ieiuc7quu6yge	14	15	additional	additional	JJ
work_ydypvtvejbby3ieiuc7quu6yge	14	16	processing	processing	NN
work_ydypvtvejbby3ieiuc7quu6yge	14	17	steps	step	NNS
work_ydypvtvejbby3ieiuc7quu6yge	14	18	in	in	IN
work_ydypvtvejbby3ieiuc7quu6yge	14	19	a	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	14	20	manufacturing	manufacturing	NN
work_ydypvtvejbby3ieiuc7quu6yge	14	21	scenario	scenario	NN
work_ydypvtvejbby3ieiuc7quu6yge	14	22	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	15	1	The	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	15	2	process	process	NN
work_ydypvtvejbby3ieiuc7quu6yge	15	3	can	can	MD
work_ydypvtvejbby3ieiuc7quu6yge	15	4	be	be	VB
work_ydypvtvejbby3ieiuc7quu6yge	15	5	achieved	achieve	VBN
work_ydypvtvejbby3ieiuc7quu6yge	15	6	within	within	IN
work_ydypvtvejbby3ieiuc7quu6yge	15	7	one	one	CD
work_ydypvtvejbby3ieiuc7quu6yge	15	8	step	step	NN
work_ydypvtvejbby3ieiuc7quu6yge	15	9	instead	instead	RB
work_ydypvtvejbby3ieiuc7quu6yge	15	10	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	15	11	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	15	12	traditional	traditional	JJ
work_ydypvtvejbby3ieiuc7quu6yge	15	13	two	two	CD
work_ydypvtvejbby3ieiuc7quu6yge	15	14	steps	step	NNS
work_ydypvtvejbby3ieiuc7quu6yge	15	15	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	16	1	It	-PRON-	PRP
work_ydypvtvejbby3ieiuc7quu6yge	16	2	also	also	RB
work_ydypvtvejbby3ieiuc7quu6yge	16	3	has	have	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	16	4	economic	economic	JJ
work_ydypvtvejbby3ieiuc7quu6yge	16	5	advantages	advantage	NNS
work_ydypvtvejbby3ieiuc7quu6yge	16	6	[	[	-LRB-
work_ydypvtvejbby3ieiuc7quu6yge	16	7	1	1	CD
work_ydypvtvejbby3ieiuc7quu6yge	16	8	]	]	-RRB-
work_ydypvtvejbby3ieiuc7quu6yge	16	9	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	17	1	The	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	17	2	metallic	metallic	JJ
work_ydypvtvejbby3ieiuc7quu6yge	17	3	bond	bond	NN
work_ydypvtvejbby3ieiuc7quu6yge	17	4	formed	form	VBN
work_ydypvtvejbby3ieiuc7quu6yge	17	5	between	between	IN
work_ydypvtvejbby3ieiuc7quu6yge	17	6	parent	parent	NN
work_ydypvtvejbby3ieiuc7quu6yge	17	7	mental	mental	JJ
work_ydypvtvejbby3ieiuc7quu6yge	17	8	surfaces	surface	NNS
work_ydypvtvejbby3ieiuc7quu6yge	17	9	has	have	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	17	10	an	an	DT
work_ydypvtvejbby3ieiuc7quu6yge	17	11	adequate	adequate	JJ
work_ydypvtvejbby3ieiuc7quu6yge	17	12	strength	strength	NN
work_ydypvtvejbby3ieiuc7quu6yge	17	13	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	17	14	achieve	achieve	VB
work_ydypvtvejbby3ieiuc7quu6yge	17	15	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	17	16	high	high	JJ
work_ydypvtvejbby3ieiuc7quu6yge	17	17	-	-	HYPH
work_ydypvtvejbby3ieiuc7quu6yge	17	18	performance	performance	NN
work_ydypvtvejbby3ieiuc7quu6yge	17	19	standards	standard	NNS
work_ydypvtvejbby3ieiuc7quu6yge	17	20	according	accord	VBG
work_ydypvtvejbby3ieiuc7quu6yge	17	21	to	to	IN
work_ydypvtvejbby3ieiuc7quu6yge	17	22	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	17	23	requirements	requirement	NNS
work_ydypvtvejbby3ieiuc7quu6yge	17	24	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	18	1	Interconnected	interconnected	JJ
work_ydypvtvejbby3ieiuc7quu6yge	18	2	porosity	porosity	NN
work_ydypvtvejbby3ieiuc7quu6yge	18	3	generates	generate	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	18	4	significant	significant	JJ
work_ydypvtvejbby3ieiuc7quu6yge	18	5	capillary	capillary	JJ
work_ydypvtvejbby3ieiuc7quu6yge	18	6	forces	force	NNS
work_ydypvtvejbby3ieiuc7quu6yge	18	7	that	that	WDT
work_ydypvtvejbby3ieiuc7quu6yge	18	8	rapidly	rapidly	RB
work_ydypvtvejbby3ieiuc7quu6yge	18	9	pull	pull	VBP
work_ydypvtvejbby3ieiuc7quu6yge	18	10	braze	braze	NN
work_ydypvtvejbby3ieiuc7quu6yge	18	11	away	away	RB
work_ydypvtvejbby3ieiuc7quu6yge	18	12	from	from	IN
work_ydypvtvejbby3ieiuc7quu6yge	18	13	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	18	14	connection	connection	NN
work_ydypvtvejbby3ieiuc7quu6yge	18	15	interface	interface	NN
work_ydypvtvejbby3ieiuc7quu6yge	18	16	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	19	1	Moreover	moreover	RB
work_ydypvtvejbby3ieiuc7quu6yge	19	2	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	19	3	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	19	4	pore	pore	NN
work_ydypvtvejbby3ieiuc7quu6yge	19	5	network	network	NN
work_ydypvtvejbby3ieiuc7quu6yge	19	6	becomes	become	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	19	7	like	like	IN
work_ydypvtvejbby3ieiuc7quu6yge	19	8	a	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	19	9	conduit	conduit	NN
work_ydypvtvejbby3ieiuc7quu6yge	19	10	that	that	WDT
work_ydypvtvejbby3ieiuc7quu6yge	19	11	fills	fill	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	19	12	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	19	13	bulk	bulk	NN
work_ydypvtvejbby3ieiuc7quu6yge	19	14	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	19	15	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	19	16	part	part	NN
work_ydypvtvejbby3ieiuc7quu6yge	19	17	with	with	IN
work_ydypvtvejbby3ieiuc7quu6yge	19	18	filler	filler	NN
work_ydypvtvejbby3ieiuc7quu6yge	19	19	materials	material	NNS
work_ydypvtvejbby3ieiuc7quu6yge	19	20	which	which	WDT
work_ydypvtvejbby3ieiuc7quu6yge	19	21	results	result	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	19	22	in	in	IN
work_ydypvtvejbby3ieiuc7quu6yge	19	23	a	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	19	24	joint	joint	JJ
work_ydypvtvejbby3ieiuc7quu6yge	19	25	deficiency	deficiency	NN
work_ydypvtvejbby3ieiuc7quu6yge	19	26	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	20	1	Therefore	therefore	RB
work_ydypvtvejbby3ieiuc7quu6yge	20	2	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	20	3	porosity	porosity	NN
work_ydypvtvejbby3ieiuc7quu6yge	20	4	is	be	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	20	5	a	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	20	6	considerable	considerable	JJ
work_ydypvtvejbby3ieiuc7quu6yge	20	7	challenge	challenge	NN
work_ydypvtvejbby3ieiuc7quu6yge	20	8	in	in	IN
work_ydypvtvejbby3ieiuc7quu6yge	20	9	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	20	10	sinter	sinter	RB
work_ydypvtvejbby3ieiuc7quu6yge	20	11	-	-	HYPH
work_ydypvtvejbby3ieiuc7quu6yge	20	12	brazing	brazing	NN
work_ydypvtvejbby3ieiuc7quu6yge	20	13	process	process	NN
work_ydypvtvejbby3ieiuc7quu6yge	20	14	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	21	1	Using	use	VBG
work_ydypvtvejbby3ieiuc7quu6yge	21	2	Copper	Copper	NNP
work_ydypvtvejbby3ieiuc7quu6yge	21	3	(	(	-LRB-
work_ydypvtvejbby3ieiuc7quu6yge	21	4	Cu	Cu	NNP
work_ydypvtvejbby3ieiuc7quu6yge	21	5	)	)	-RRB-
work_ydypvtvejbby3ieiuc7quu6yge	21	6	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	21	7	infiltrate	infiltrate	VB
work_ydypvtvejbby3ieiuc7quu6yge	21	8	before	before	IN
work_ydypvtvejbby3ieiuc7quu6yge	21	9	brazing	brazing	NN
work_ydypvtvejbby3ieiuc7quu6yge	21	10	can	can	MD
work_ydypvtvejbby3ieiuc7quu6yge	21	11	be	be	VB
work_ydypvtvejbby3ieiuc7quu6yge	21	12	a	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	21	13	potential	potential	JJ
work_ydypvtvejbby3ieiuc7quu6yge	21	14	solution	solution	NN
work_ydypvtvejbby3ieiuc7quu6yge	21	15	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	21	16	fill	fill	VB
work_ydypvtvejbby3ieiuc7quu6yge	21	17	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	21	18	pore	pore	NNP
work_ydypvtvejbby3ieiuc7quu6yge	21	19	network	network	NN
work_ydypvtvejbby3ieiuc7quu6yge	21	20	but	but	CC
work_ydypvtvejbby3ieiuc7quu6yge	21	21	is	be	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	21	22	an	an	DT
work_ydypvtvejbby3ieiuc7quu6yge	21	23	expensive	expensive	JJ
work_ydypvtvejbby3ieiuc7quu6yge	21	24	process	process	NN
work_ydypvtvejbby3ieiuc7quu6yge	21	25	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	22	1	Another	another	DT
work_ydypvtvejbby3ieiuc7quu6yge	22	2	option	option	NN
work_ydypvtvejbby3ieiuc7quu6yge	22	3	is	be	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	22	4	compressing	compress	VBG
work_ydypvtvejbby3ieiuc7quu6yge	22	5	to	to	IN
work_ydypvtvejbby3ieiuc7quu6yge	22	6	densities	density	NNS
work_ydypvtvejbby3ieiuc7quu6yge	22	7	>	>	XX
work_ydypvtvejbby3ieiuc7quu6yge	22	8	7	7	CD
work_ydypvtvejbby3ieiuc7quu6yge	22	9	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	22	10	g	g	NNP
work_ydypvtvejbby3ieiuc7quu6yge	22	11	/	/	SYM
work_ydypvtvejbby3ieiuc7quu6yge	22	12	cm3	cm3	NNP
work_ydypvtvejbby3ieiuc7quu6yge	22	13	[	[	-LRB-
work_ydypvtvejbby3ieiuc7quu6yge	22	14	4	4	CD
work_ydypvtvejbby3ieiuc7quu6yge	22	15	]	]	-RRB-
work_ydypvtvejbby3ieiuc7quu6yge	22	16	but	but	CC
work_ydypvtvejbby3ieiuc7quu6yge	22	17	has	have	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	22	18	a	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	22	19	risk	risk	NN
work_ydypvtvejbby3ieiuc7quu6yge	22	20	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	22	21	get	get	VB
work_ydypvtvejbby3ieiuc7quu6yge	22	22	reduced	reduce	VBN
work_ydypvtvejbby3ieiuc7quu6yge	22	23	strength	strength	NN
work_ydypvtvejbby3ieiuc7quu6yge	22	24	than	than	IN
work_ydypvtvejbby3ieiuc7quu6yge	22	25	expected	expect	VBN
work_ydypvtvejbby3ieiuc7quu6yge	22	26	in	in	IN
work_ydypvtvejbby3ieiuc7quu6yge	22	27	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	22	28	connection	connection	NN
work_ydypvtvejbby3ieiuc7quu6yge	22	29	interface	interface	NN
work_ydypvtvejbby3ieiuc7quu6yge	22	30	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	23	1	Burgess	Burgess	NNP
work_ydypvtvejbby3ieiuc7quu6yge	23	2	Norton	Norton	NNP
work_ydypvtvejbby3ieiuc7quu6yge	23	3	Mfg	Mfg	NNP
work_ydypvtvejbby3ieiuc7quu6yge	23	4	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	24	1	Co.	Co.	NNP
work_ydypvtvejbby3ieiuc7quu6yge	24	2	(	(	-LRB-
work_ydypvtvejbby3ieiuc7quu6yge	24	3	Geneva	Geneva	NNP
work_ydypvtvejbby3ieiuc7quu6yge	24	4	Illinois	Illinois	NNP
work_ydypvtvejbby3ieiuc7quu6yge	24	5	)	)	-RRB-
work_ydypvtvejbby3ieiuc7quu6yge	24	6	is	be	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	24	7	making	make	VBG
work_ydypvtvejbby3ieiuc7quu6yge	24	8	powder	powder	NN
work_ydypvtvejbby3ieiuc7quu6yge	24	9	metal	metal	NN
work_ydypvtvejbby3ieiuc7quu6yge	24	10	products	product	NNS
work_ydypvtvejbby3ieiuc7quu6yge	24	11	since	since	IN
work_ydypvtvejbby3ieiuc7quu6yge	24	12	1903	1903	CD
work_ydypvtvejbby3ieiuc7quu6yge	24	13	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	24	14	operating	operate	VBG
work_ydypvtvejbby3ieiuc7quu6yge	24	15	seven	seven	CD
work_ydypvtvejbby3ieiuc7quu6yge	24	16	facilities	facility	NNS
work_ydypvtvejbby3ieiuc7quu6yge	24	17	all	all	RB
work_ydypvtvejbby3ieiuc7quu6yge	24	18	over	over	IN
work_ydypvtvejbby3ieiuc7quu6yge	24	19	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	24	20	world	world	NN
work_ydypvtvejbby3ieiuc7quu6yge	24	21	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	25	1	1000101-MPIF	1000101-mpif	LS
work_ydypvtvejbby3ieiuc7quu6yge	25	2	FLC:4405	FLC:4405	NNP
work_ydypvtvejbby3ieiuc7quu6yge	25	3	is	be	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	25	4	a	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	25	5	widely	widely	RB
work_ydypvtvejbby3ieiuc7quu6yge	25	6	used	use	VBN
work_ydypvtvejbby3ieiuc7quu6yge	25	7	filler	filler	NN
work_ydypvtvejbby3ieiuc7quu6yge	25	8	alloy	alloy	NN
work_ydypvtvejbby3ieiuc7quu6yge	25	9	for	for	IN
work_ydypvtvejbby3ieiuc7quu6yge	25	10	infiltration	infiltration	NN
work_ydypvtvejbby3ieiuc7quu6yge	25	11	during	during	IN
work_ydypvtvejbby3ieiuc7quu6yge	25	12	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	25	13	sinter	sinter	RB
work_ydypvtvejbby3ieiuc7quu6yge	25	14	-	-	HYPH
work_ydypvtvejbby3ieiuc7quu6yge	25	15	brazing	brazing	NN
work_ydypvtvejbby3ieiuc7quu6yge	25	16	process	process	NN
work_ydypvtvejbby3ieiuc7quu6yge	25	17	by	by	IN
work_ydypvtvejbby3ieiuc7quu6yge	25	18	Burgess	Burgess	NNP
work_ydypvtvejbby3ieiuc7quu6yge	25	19	Norton	Norton	NNP
work_ydypvtvejbby3ieiuc7quu6yge	25	20	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	26	1	This	this	DT
work_ydypvtvejbby3ieiuc7quu6yge	26	2	alloy	alloy	NN
work_ydypvtvejbby3ieiuc7quu6yge	26	3	limits	limit	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	26	4	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	26	5	loss	loss	NN
work_ydypvtvejbby3ieiuc7quu6yge	26	6	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	26	7	material	material	NN
work_ydypvtvejbby3ieiuc7quu6yge	26	8	in	in	IN
work_ydypvtvejbby3ieiuc7quu6yge	26	9	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	26	10	pore	pore	NNP
work_ydypvtvejbby3ieiuc7quu6yge	26	11	network	network	NN
work_ydypvtvejbby3ieiuc7quu6yge	26	12	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	26	13	creates	create	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	26	14	a	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	26	15	strong	strong	JJ
work_ydypvtvejbby3ieiuc7quu6yge	26	16	bond	bond	NN
work_ydypvtvejbby3ieiuc7quu6yge	26	17	between	between	IN
work_ydypvtvejbby3ieiuc7quu6yge	26	18	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	26	19	parent	parent	NN
work_ydypvtvejbby3ieiuc7quu6yge	26	20	metal	metal	NN
work_ydypvtvejbby3ieiuc7quu6yge	26	21	surfaces	surface	NNS
work_ydypvtvejbby3ieiuc7quu6yge	26	22	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	27	1	This	this	DT
work_ydypvtvejbby3ieiuc7quu6yge	27	2	can	can	MD
work_ydypvtvejbby3ieiuc7quu6yge	27	3	be	be	VB
work_ydypvtvejbby3ieiuc7quu6yge	27	4	achieved	achieve	VBN
work_ydypvtvejbby3ieiuc7quu6yge	27	5	by	by	IN
work_ydypvtvejbby3ieiuc7quu6yge	27	6	increasing	increase	VBG
work_ydypvtvejbby3ieiuc7quu6yge	27	7	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	27	8	liquid	liquid	JJ
work_ydypvtvejbby3ieiuc7quu6yge	27	9	temperature	temperature	NN
work_ydypvtvejbby3ieiuc7quu6yge	27	10	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	27	11	increase	increase	VB
work_ydypvtvejbby3ieiuc7quu6yge	27	12	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	27	13	surface	surface	NN
work_ydypvtvejbby3ieiuc7quu6yge	27	14	tension	tension	NN
work_ydypvtvejbby3ieiuc7quu6yge	27	15	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	27	16	thus	thus	RB
work_ydypvtvejbby3ieiuc7quu6yge	27	17	reducing	reduce	VBG
work_ydypvtvejbby3ieiuc7quu6yge	27	18	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	27	19	flowability	flowability	NN
work_ydypvtvejbby3ieiuc7quu6yge	27	20	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	27	21	prevent	prevent	VB
work_ydypvtvejbby3ieiuc7quu6yge	27	22	braze	braze	NN
work_ydypvtvejbby3ieiuc7quu6yge	27	23	alloy	alloy	NN
work_ydypvtvejbby3ieiuc7quu6yge	27	24	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	27	25	penetrate	penetrate	VB
work_ydypvtvejbby3ieiuc7quu6yge	27	26	further	further	RB
work_ydypvtvejbby3ieiuc7quu6yge	27	27	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	28	1	However	however	RB
work_ydypvtvejbby3ieiuc7quu6yge	28	2	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	28	3	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	28	4	process	process	NN
work_ydypvtvejbby3ieiuc7quu6yge	28	5	is	be	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	28	6	not	not	RB
work_ydypvtvejbby3ieiuc7quu6yge	28	7	entirely	entirely	RB
work_ydypvtvejbby3ieiuc7quu6yge	28	8	smooth	smooth	JJ
work_ydypvtvejbby3ieiuc7quu6yge	28	9	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	28	10	influenced	influence	VBN
work_ydypvtvejbby3ieiuc7quu6yge	28	11	by	by	IN
work_ydypvtvejbby3ieiuc7quu6yge	28	12	many	many	JJ
work_ydypvtvejbby3ieiuc7quu6yge	28	13	external	external	JJ
work_ydypvtvejbby3ieiuc7quu6yge	28	14	parameters	parameter	NNS
work_ydypvtvejbby3ieiuc7quu6yge	28	15	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	29	1	Despite	despite	IN
work_ydypvtvejbby3ieiuc7quu6yge	29	2	having	have	VBG
work_ydypvtvejbby3ieiuc7quu6yge	29	3	a	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	29	4	high	high	JJ
work_ydypvtvejbby3ieiuc7quu6yge	29	5	success	success	NN
work_ydypvtvejbby3ieiuc7quu6yge	29	6	ratio	ratio	NN
work_ydypvtvejbby3ieiuc7quu6yge	29	7	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	29	8	it	-PRON-	PRP
work_ydypvtvejbby3ieiuc7quu6yge	29	9	has	have	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	29	10	occasional	occasional	JJ
work_ydypvtvejbby3ieiuc7quu6yge	29	11	failure	failure	NN
work_ydypvtvejbby3ieiuc7quu6yge	29	12	due	due	IN
work_ydypvtvejbby3ieiuc7quu6yge	29	13	to	to	IN
work_ydypvtvejbby3ieiuc7quu6yge	29	14	excessive	excessive	JJ
work_ydypvtvejbby3ieiuc7quu6yge	29	15	infiltration	infiltration	NN
work_ydypvtvejbby3ieiuc7quu6yge	29	16	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	30	1	Significant	significant	JJ
work_ydypvtvejbby3ieiuc7quu6yge	30	2	work	work	NN
work_ydypvtvejbby3ieiuc7quu6yge	30	3	has	have	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	30	4	been	be	VBN
work_ydypvtvejbby3ieiuc7quu6yge	30	5	done	do	VBN
work_ydypvtvejbby3ieiuc7quu6yge	30	6	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	30	7	understand	understand	VB
work_ydypvtvejbby3ieiuc7quu6yge	30	8	this	this	DT
work_ydypvtvejbby3ieiuc7quu6yge	30	9	challenge	challenge	NN
work_ydypvtvejbby3ieiuc7quu6yge	30	10	within	within	IN
work_ydypvtvejbby3ieiuc7quu6yge	30	11	manufacturing	manufacturing	NN
work_ydypvtvejbby3ieiuc7quu6yge	30	12	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	31	1	One	one	CD
work_ydypvtvejbby3ieiuc7quu6yge	31	2	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	31	3	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	31	4	methods	method	NNS
work_ydypvtvejbby3ieiuc7quu6yge	31	5	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	31	6	counter	counter	VB
work_ydypvtvejbby3ieiuc7quu6yge	31	7	excessive	excessive	JJ
work_ydypvtvejbby3ieiuc7quu6yge	31	8	infiltration	infiltration	NN
work_ydypvtvejbby3ieiuc7quu6yge	31	9	is	be	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	31	10	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	31	11	add	add	VB
work_ydypvtvejbby3ieiuc7quu6yge	31	12	some	some	DT
work_ydypvtvejbby3ieiuc7quu6yge	31	13	iron	iron	NN
work_ydypvtvejbby3ieiuc7quu6yge	31	14	powder	powder	NN
work_ydypvtvejbby3ieiuc7quu6yge	31	15	to	to	IN
work_ydypvtvejbby3ieiuc7quu6yge	31	16	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	31	17	braze	braze	NN
work_ydypvtvejbby3ieiuc7quu6yge	31	18	pre	pre	JJ
work_ydypvtvejbby3ieiuc7quu6yge	31	19	-	-	NN
work_ydypvtvejbby3ieiuc7quu6yge	31	20	mix	mix	VB
work_ydypvtvejbby3ieiuc7quu6yge	31	21	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	31	22	influence	influence	VB
work_ydypvtvejbby3ieiuc7quu6yge	31	23	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	31	24	onset	onset	NN
work_ydypvtvejbby3ieiuc7quu6yge	31	25	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	31	26	solidification	solidification	NN
work_ydypvtvejbby3ieiuc7quu6yge	31	27	temperature	temperature	NN
work_ydypvtvejbby3ieiuc7quu6yge	31	28	[	[	-LRB-
work_ydypvtvejbby3ieiuc7quu6yge	31	29	5,6	5,6	CD
work_ydypvtvejbby3ieiuc7quu6yge	31	30	]	]	-RRB-
work_ydypvtvejbby3ieiuc7quu6yge	31	31	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	32	1	Brazing	brazing	NN
work_ydypvtvejbby3ieiuc7quu6yge	32	2	has	have	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	32	3	many	many	JJ
work_ydypvtvejbby3ieiuc7quu6yge	32	4	established	establish	VBN
work_ydypvtvejbby3ieiuc7quu6yge	32	5	best	good	JJS
work_ydypvtvejbby3ieiuc7quu6yge	32	6	practices	practice	NNS
work_ydypvtvejbby3ieiuc7quu6yge	32	7	[	[	-LRB-
work_ydypvtvejbby3ieiuc7quu6yge	32	8	1,6,7	1,6,7	CD
work_ydypvtvejbby3ieiuc7quu6yge	32	9	]	]	-RRB-
work_ydypvtvejbby3ieiuc7quu6yge	32	10	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	33	1	Performing	perform	VBG
work_ydypvtvejbby3ieiuc7quu6yge	33	2	each	each	DT
work_ydypvtvejbby3ieiuc7quu6yge	33	3	step	step	NN
work_ydypvtvejbby3ieiuc7quu6yge	33	4	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	33	5	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	33	6	sintering	sinter	VBG
work_ydypvtvejbby3ieiuc7quu6yge	33	7	cycle	cycle	NN
work_ydypvtvejbby3ieiuc7quu6yge	33	8	within	within	IN
work_ydypvtvejbby3ieiuc7quu6yge	33	9	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	33	10	controlled	control	VBN
work_ydypvtvejbby3ieiuc7quu6yge	33	11	environment	environment	NN
work_ydypvtvejbby3ieiuc7quu6yge	33	12	is	be	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	33	13	one	one	CD
work_ydypvtvejbby3ieiuc7quu6yge	33	14	critical	critical	JJ
work_ydypvtvejbby3ieiuc7quu6yge	33	15	factor	factor	NN
work_ydypvtvejbby3ieiuc7quu6yge	33	16	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	34	1	To	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	34	2	have	have	VB
work_ydypvtvejbby3ieiuc7quu6yge	34	3	an	an	DT
work_ydypvtvejbby3ieiuc7quu6yge	34	4	effective	effective	JJ
work_ydypvtvejbby3ieiuc7quu6yge	34	5	relubrication	relubrication	NN
work_ydypvtvejbby3ieiuc7quu6yge	34	6	without	without	IN
work_ydypvtvejbby3ieiuc7quu6yge	34	7	shooting	shoot	VBG
work_ydypvtvejbby3ieiuc7quu6yge	34	8	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	34	9	a	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	34	10	little	little	JJ
work_ydypvtvejbby3ieiuc7quu6yge	34	11	oxidizing	oxidizing	JJ
work_ydypvtvejbby3ieiuc7quu6yge	34	12	is	be	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	34	13	required	require	VBN
work_ydypvtvejbby3ieiuc7quu6yge	34	14	within	within	IN
work_ydypvtvejbby3ieiuc7quu6yge	34	15	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	34	16	preheat	preheat	NN
work_ydypvtvejbby3ieiuc7quu6yge	34	17	zone	zone	NN
work_ydypvtvejbby3ieiuc7quu6yge	34	18	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	35	1	Although	although	IN
work_ydypvtvejbby3ieiuc7quu6yge	35	2	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	35	3	some	some	DT
work_ydypvtvejbby3ieiuc7quu6yge	35	4	surface	surface	NN
work_ydypvtvejbby3ieiuc7quu6yge	35	5	contaminants	contaminant	NNS
work_ydypvtvejbby3ieiuc7quu6yge	35	6	can	can	MD
work_ydypvtvejbby3ieiuc7quu6yge	35	7	negatively	negatively	RB
work_ydypvtvejbby3ieiuc7quu6yge	35	8	influence	influence	VB
work_ydypvtvejbby3ieiuc7quu6yge	35	9	wetting	wetting	NN
work_ydypvtvejbby3ieiuc7quu6yge	35	10	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	35	11	hinder	hinder	NN
work_ydypvtvejbby3ieiuc7quu6yge	35	12	braze	braze	NN
work_ydypvtvejbby3ieiuc7quu6yge	35	13	from	from	IN
work_ydypvtvejbby3ieiuc7quu6yge	35	14	flowing	flow	VBG
work_ydypvtvejbby3ieiuc7quu6yge	35	15	through	through	IN
work_ydypvtvejbby3ieiuc7quu6yge	35	16	a	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	35	17	gap	gap	NN
work_ydypvtvejbby3ieiuc7quu6yge	35	18	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	36	1	The	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	36	2	excessive	excessive	JJ
work_ydypvtvejbby3ieiuc7quu6yge	36	3	oxidizing	oxidizing	JJ
work_ydypvtvejbby3ieiuc7quu6yge	36	4	atmosphere	atmosphere	NN
work_ydypvtvejbby3ieiuc7quu6yge	36	5	can	can	MD
work_ydypvtvejbby3ieiuc7quu6yge	36	6	cause	cause	VB
work_ydypvtvejbby3ieiuc7quu6yge	36	7	inefficiency	inefficiency	NN
work_ydypvtvejbby3ieiuc7quu6yge	36	8	in	in	IN
work_ydypvtvejbby3ieiuc7quu6yge	36	9	reducing	reduce	VBG
work_ydypvtvejbby3ieiuc7quu6yge	36	10	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	36	11	brazing	brazing	NN
work_ydypvtvejbby3ieiuc7quu6yge	36	12	material	material	NN
work_ydypvtvejbby3ieiuc7quu6yge	36	13	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	36	14	a	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	36	15	greenish	greenish	JJ
work_ydypvtvejbby3ieiuc7quu6yge	36	16	tint	tint	NN
work_ydypvtvejbby3ieiuc7quu6yge	36	17	on	on	IN
work_ydypvtvejbby3ieiuc7quu6yge	36	18	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	36	19	surface	surface	NN
work_ydypvtvejbby3ieiuc7quu6yge	36	20	indicates	indicate	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	36	21	excessive	excessive	JJ
work_ydypvtvejbby3ieiuc7quu6yge	36	22	oxidation	oxidation	NN
work_ydypvtvejbby3ieiuc7quu6yge	36	23	[	[	-LRB-
work_ydypvtvejbby3ieiuc7quu6yge	36	24	1	1	CD
work_ydypvtvejbby3ieiuc7quu6yge	36	25	]	]	-RRB-
work_ydypvtvejbby3ieiuc7quu6yge	36	26	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	37	1	Also	also	RB
work_ydypvtvejbby3ieiuc7quu6yge	37	2	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	37	3	furnace	furnace	NN
work_ydypvtvejbby3ieiuc7quu6yge	37	4	temperature	temperature	NN
work_ydypvtvejbby3ieiuc7quu6yge	37	5	should	should	MD
work_ydypvtvejbby3ieiuc7quu6yge	37	6	be	be	VB
work_ydypvtvejbby3ieiuc7quu6yge	37	7	adjusted	adjust	VBN
work_ydypvtvejbby3ieiuc7quu6yge	37	8	for	for	IN
work_ydypvtvejbby3ieiuc7quu6yge	37	9	different	different	JJ
work_ydypvtvejbby3ieiuc7quu6yge	37	10	loads	load	NNS
work_ydypvtvejbby3ieiuc7quu6yge	37	11	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	38	1	Furthermore	furthermore	RB
work_ydypvtvejbby3ieiuc7quu6yge	38	2	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	38	3	maintaining	maintain	VBG
work_ydypvtvejbby3ieiuc7quu6yge	38	4	consistent	consistent	JJ
work_ydypvtvejbby3ieiuc7quu6yge	38	5	temperature	temperature	NN
work_ydypvtvejbby3ieiuc7quu6yge	38	6	is	be	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	38	7	essential	essential	JJ
work_ydypvtvejbby3ieiuc7quu6yge	38	8	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	38	9	regulate	regulate	VB
work_ydypvtvejbby3ieiuc7quu6yge	38	10	desired	desire	VBN
work_ydypvtvejbby3ieiuc7quu6yge	38	11	brazing	brazing	NN
work_ydypvtvejbby3ieiuc7quu6yge	38	12	metal	metal	NN
work_ydypvtvejbby3ieiuc7quu6yge	38	13	flow	flow	NN
work_ydypvtvejbby3ieiuc7quu6yge	38	14	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	39	1	Slow	slow	JJ
work_ydypvtvejbby3ieiuc7quu6yge	39	2	heating	heating	NN
work_ydypvtvejbby3ieiuc7quu6yge	39	3	rates	rate	NNS
work_ydypvtvejbby3ieiuc7quu6yge	39	4	can	can	MD
work_ydypvtvejbby3ieiuc7quu6yge	39	5	segregate	segregate	VB
work_ydypvtvejbby3ieiuc7quu6yge	39	6	braze	braze	NN
work_ydypvtvejbby3ieiuc7quu6yge	39	7	from	from	IN
work_ydypvtvejbby3ieiuc7quu6yge	39	8	ler	ler	NN
work_ydypvtvejbby3ieiuc7quu6yge	39	9	melting	melt	VBG
work_ydypvtvejbby3ieiuc7quu6yge	39	10	constituents	constituent	NNS
work_ydypvtvejbby3ieiuc7quu6yge	39	11	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	39	12	alloy	alloy	VBD
work_ydypvtvejbby3ieiuc7quu6yge	39	13	with	with	IN
work_ydypvtvejbby3ieiuc7quu6yge	39	14	an	an	DT
work_ydypvtvejbby3ieiuc7quu6yge	39	15	iron	iron	NN
work_ydypvtvejbby3ieiuc7quu6yge	39	16	after	after	IN
work_ydypvtvejbby3ieiuc7quu6yge	39	17	re	re	NN
work_ydypvtvejbby3ieiuc7quu6yge	39	18	-	-	NN
work_ydypvtvejbby3ieiuc7quu6yge	39	19	solidification	solidification	NN
work_ydypvtvejbby3ieiuc7quu6yge	39	20	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	39	21	impeding	impede	VBG
work_ydypvtvejbby3ieiuc7quu6yge	39	22	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	39	23	remaining	remain	VBG
work_ydypvtvejbby3ieiuc7quu6yge	39	24	brazing	brazing	NN
work_ydypvtvejbby3ieiuc7quu6yge	39	25	metal	metal	NN
work_ydypvtvejbby3ieiuc7quu6yge	39	26	from	from	IN
work_ydypvtvejbby3ieiuc7quu6yge	39	27	flowing	flow	VBG
work_ydypvtvejbby3ieiuc7quu6yge	39	28	into	into	IN
work_ydypvtvejbby3ieiuc7quu6yge	39	29	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	39	30	pore	pore	NN
work_ydypvtvejbby3ieiuc7quu6yge	39	31	network	network	NN
work_ydypvtvejbby3ieiuc7quu6yge	39	32	[	[	-LRB-
work_ydypvtvejbby3ieiuc7quu6yge	39	33	2	2	CD
work_ydypvtvejbby3ieiuc7quu6yge	39	34	]	]	-RRB-
work_ydypvtvejbby3ieiuc7quu6yge	39	35	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	40	1	For	for	IN
work_ydypvtvejbby3ieiuc7quu6yge	40	2	successful	successful	JJ
work_ydypvtvejbby3ieiuc7quu6yge	40	3	brazing	brazing	NN
work_ydypvtvejbby3ieiuc7quu6yge	40	4	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	40	5	wetting	wet	VBG
work_ydypvtvejbby3ieiuc7quu6yge	40	6	parent	parent	NN
work_ydypvtvejbby3ieiuc7quu6yge	40	7	material	material	NN
work_ydypvtvejbby3ieiuc7quu6yge	40	8	surfacing	surface	VBG
work_ydypvtvejbby3ieiuc7quu6yge	40	9	with	with	IN
work_ydypvtvejbby3ieiuc7quu6yge	40	10	liquid	liquid	JJ
work_ydypvtvejbby3ieiuc7quu6yge	40	11	braze	braze	NN
work_ydypvtvejbby3ieiuc7quu6yge	40	12	is	be	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	40	13	one	one	CD
work_ydypvtvejbby3ieiuc7quu6yge	40	14	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	40	15	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	40	16	key	key	JJ
work_ydypvtvejbby3ieiuc7quu6yge	40	17	factors	factor	NNS
work_ydypvtvejbby3ieiuc7quu6yge	40	18	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	41	1	It	-PRON-	PRP
work_ydypvtvejbby3ieiuc7quu6yge	41	2	is	be	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	41	3	important	important	JJ
work_ydypvtvejbby3ieiuc7quu6yge	41	4	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	41	5	dissolve	dissolve	VB
work_ydypvtvejbby3ieiuc7quu6yge	41	6	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	41	7	surface	surface	NN
work_ydypvtvejbby3ieiuc7quu6yge	41	8	oxides	oxide	NNS
work_ydypvtvejbby3ieiuc7quu6yge	41	9	by	by	IN
work_ydypvtvejbby3ieiuc7quu6yge	41	10	utilizing	utilize	VBG
work_ydypvtvejbby3ieiuc7quu6yge	41	11	a	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	41	12	flux	flux	NN
work_ydypvtvejbby3ieiuc7quu6yge	41	13	on	on	IN
work_ydypvtvejbby3ieiuc7quu6yge	41	14	brazing	brazing	NN
work_ydypvtvejbby3ieiuc7quu6yge	41	15	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	41	16	parental	parental	JJ
work_ydypvtvejbby3ieiuc7quu6yge	41	17	material	material	NN
work_ydypvtvejbby3ieiuc7quu6yge	41	18	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	41	19	prevent	prevent	VB
work_ydypvtvejbby3ieiuc7quu6yge	41	20	braze	braze	NN
work_ydypvtvejbby3ieiuc7quu6yge	41	21	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	41	22	flow	flow	VB
work_ydypvtvejbby3ieiuc7quu6yge	41	23	into	into	IN
work_ydypvtvejbby3ieiuc7quu6yge	41	24	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	41	25	pore	pore	JJ
work_ydypvtvejbby3ieiuc7quu6yge	41	26	network	network	NN
work_ydypvtvejbby3ieiuc7quu6yge	41	27	within	within	IN
work_ydypvtvejbby3ieiuc7quu6yge	41	28	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	41	29	joint	joint	JJ
work_ydypvtvejbby3ieiuc7quu6yge	41	30	[	[	-LRB-
work_ydypvtvejbby3ieiuc7quu6yge	41	31	8	8	CD
work_ydypvtvejbby3ieiuc7quu6yge	41	32	]	]	-RRB-
work_ydypvtvejbby3ieiuc7quu6yge	41	33	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	42	1	However	however	RB
work_ydypvtvejbby3ieiuc7quu6yge	42	2	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	42	3	in	in	IN
work_ydypvtvejbby3ieiuc7quu6yge	42	4	that	that	DT
work_ydypvtvejbby3ieiuc7quu6yge	42	5	process	process	NN
work_ydypvtvejbby3ieiuc7quu6yge	42	6	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	42	7	glassy	glassy	NN
work_ydypvtvejbby3ieiuc7quu6yge	42	8	residues	residue	NNS
work_ydypvtvejbby3ieiuc7quu6yge	42	9	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	42	10	metal	metal	NN
work_ydypvtvejbby3ieiuc7quu6yge	42	11	oxides	oxide	NNS
work_ydypvtvejbby3ieiuc7quu6yge	42	12	are	be	VBP
work_ydypvtvejbby3ieiuc7quu6yge	42	13	left	leave	VBN
work_ydypvtvejbby3ieiuc7quu6yge	42	14	behind	behind	IN
work_ydypvtvejbby3ieiuc7quu6yge	42	15	which	which	WDT
work_ydypvtvejbby3ieiuc7quu6yge	42	16	can	can	MD
work_ydypvtvejbby3ieiuc7quu6yge	42	17	be	be	VB
work_ydypvtvejbby3ieiuc7quu6yge	42	18	adherent	adherent	JJ
work_ydypvtvejbby3ieiuc7quu6yge	42	19	in	in	IN
work_ydypvtvejbby3ieiuc7quu6yge	42	20	nature	nature	NN
work_ydypvtvejbby3ieiuc7quu6yge	42	21	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	43	1	Thus	thus	RB
work_ydypvtvejbby3ieiuc7quu6yge	43	2	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	43	3	it	-PRON-	PRP
work_ydypvtvejbby3ieiuc7quu6yge	43	4	is	be	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	43	5	recommended	recommend	VBN
work_ydypvtvejbby3ieiuc7quu6yge	43	6	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	43	7	incorporate	incorporate	VB
work_ydypvtvejbby3ieiuc7quu6yge	43	8	blind	blind	JJ
work_ydypvtvejbby3ieiuc7quu6yge	43	9	holes	hole	NNS
work_ydypvtvejbby3ieiuc7quu6yge	43	10	or	or	CC
work_ydypvtvejbby3ieiuc7quu6yge	43	11	enclosed	enclose	VBN
work_ydypvtvejbby3ieiuc7quu6yge	43	12	cavities	cavity	NNS
work_ydypvtvejbby3ieiuc7quu6yge	43	13	within	within	IN
work_ydypvtvejbby3ieiuc7quu6yge	43	14	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	43	15	design	design	NN
work_ydypvtvejbby3ieiuc7quu6yge	43	16	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	44	1	Regardless	regardless	RB
work_ydypvtvejbby3ieiuc7quu6yge	44	2	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	44	3	if	if	IN
work_ydypvtvejbby3ieiuc7quu6yge	44	4	not	not	RB
work_ydypvtvejbby3ieiuc7quu6yge	44	5	performed	perform	VBN
work_ydypvtvejbby3ieiuc7quu6yge	44	6	in	in	IN
work_ydypvtvejbby3ieiuc7quu6yge	44	7	a	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	44	8	vacuum	vacuum	NN
work_ydypvtvejbby3ieiuc7quu6yge	44	9	chamber	chamber	NN
work_ydypvtvejbby3ieiuc7quu6yge	44	10	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	44	11	adding	add	VBG
work_ydypvtvejbby3ieiuc7quu6yge	44	12	flux	flux	NN
work_ydypvtvejbby3ieiuc7quu6yge	44	13	is	be	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	44	14	essential	essential	JJ
work_ydypvtvejbby3ieiuc7quu6yge	44	15	in	in	IN
work_ydypvtvejbby3ieiuc7quu6yge	44	16	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	44	17	sinter	sinter	RB
work_ydypvtvejbby3ieiuc7quu6yge	44	18	-	-	HYPH
work_ydypvtvejbby3ieiuc7quu6yge	44	19	brazing	brazing	NN
work_ydypvtvejbby3ieiuc7quu6yge	44	20	process	process	NN
work_ydypvtvejbby3ieiuc7quu6yge	44	21	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	45	1	Traditionally	traditionally	RB
work_ydypvtvejbby3ieiuc7quu6yge	45	2	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	45	3	sinter	sinter	NN
work_ydypvtvejbby3ieiuc7quu6yge	45	4	-	-	HYPH
work_ydypvtvejbby3ieiuc7quu6yge	45	5	brazing	brazing	NN
work_ydypvtvejbby3ieiuc7quu6yge	45	6	was	be	VBD
work_ydypvtvejbby3ieiuc7quu6yge	45	7	performed	perform	VBN
work_ydypvtvejbby3ieiuc7quu6yge	45	8	with	with	IN
work_ydypvtvejbby3ieiuc7quu6yge	45	9	1000101-MPIF	1000101-MPIF	NNS
work_ydypvtvejbby3ieiuc7quu6yge	45	10	FLC:4405	FLC:4405	NNS
work_ydypvtvejbby3ieiuc7quu6yge	45	11	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	45	12	sintering	sinter	VBG
work_ydypvtvejbby3ieiuc7quu6yge	45	13	in	in	IN
work_ydypvtvejbby3ieiuc7quu6yge	45	14	a	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	45	15	furnace	furnace	NN
work_ydypvtvejbby3ieiuc7quu6yge	45	16	cycle	cycle	NN
work_ydypvtvejbby3ieiuc7quu6yge	45	17	process	process	NN
work_ydypvtvejbby3ieiuc7quu6yge	45	18	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	46	1	But	but	CC
work_ydypvtvejbby3ieiuc7quu6yge	46	2	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	46	3	challenge	challenge	VB
work_ydypvtvejbby3ieiuc7quu6yge	46	4	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	46	5	capabilities	capability	NNS
work_ydypvtvejbby3ieiuc7quu6yge	46	6	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	46	7	sinter	sint	JJR
work_ydypvtvejbby3ieiuc7quu6yge	46	8	brazing	brazing	NN
work_ydypvtvejbby3ieiuc7quu6yge	46	9	materials	material	NNS
work_ydypvtvejbby3ieiuc7quu6yge	46	10	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	46	11	its	-PRON-	PRP$
work_ydypvtvejbby3ieiuc7quu6yge	46	12	components	component	NNS
work_ydypvtvejbby3ieiuc7quu6yge	46	13	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	46	14	another	another	DT
work_ydypvtvejbby3ieiuc7quu6yge	46	15	test	test	NN
work_ydypvtvejbby3ieiuc7quu6yge	46	16	took	take	VBD
work_ydypvtvejbby3ieiuc7quu6yge	46	17	a	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	46	18	place	place	NN
work_ydypvtvejbby3ieiuc7quu6yge	46	19	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	46	20	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	46	21	research	research	NN
work_ydypvtvejbby3ieiuc7quu6yge	46	22	done	do	VBN
work_ydypvtvejbby3ieiuc7quu6yge	46	23	with	with	IN
work_ydypvtvejbby3ieiuc7quu6yge	46	24	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	46	25	powder	powder	NN
work_ydypvtvejbby3ieiuc7quu6yge	46	26	1000111-MPIF	1000111-mpif	CD
work_ydypvtvejbby3ieiuc7quu6yge	46	27	FLC-4808	FLC-4808	NNP
work_ydypvtvejbby3ieiuc7quu6yge	46	28	which	which	WDT
work_ydypvtvejbby3ieiuc7quu6yge	46	29	showed	show	VBD
work_ydypvtvejbby3ieiuc7quu6yge	46	30	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	46	31	significant	significant	JJ
work_ydypvtvejbby3ieiuc7quu6yge	46	32	results	result	NNS
work_ydypvtvejbby3ieiuc7quu6yge	46	33	in	in	IN
work_ydypvtvejbby3ieiuc7quu6yge	46	34	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	46	35	sinter	sinter	JJ
work_ydypvtvejbby3ieiuc7quu6yge	46	36	brazing	brazing	NN
work_ydypvtvejbby3ieiuc7quu6yge	46	37	procedure	procedure	NN
work_ydypvtvejbby3ieiuc7quu6yge	46	38	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	47	1	Materials	material	NNS
work_ydypvtvejbby3ieiuc7quu6yge	47	2	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	47	3	Methods	method	NNS
work_ydypvtvejbby3ieiuc7quu6yge	47	4	:	:	:
work_ydypvtvejbby3ieiuc7quu6yge	47	5	The	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	47	6	braze	braze	NN
work_ydypvtvejbby3ieiuc7quu6yge	47	7	alloys	alloy	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	47	8	that	that	WDT
work_ydypvtvejbby3ieiuc7quu6yge	47	9	are	be	VBP
work_ydypvtvejbby3ieiuc7quu6yge	47	10	used	use	VBN
work_ydypvtvejbby3ieiuc7quu6yge	47	11	in	in	IN
work_ydypvtvejbby3ieiuc7quu6yge	47	12	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	47	13	study	study	NN
work_ydypvtvejbby3ieiuc7quu6yge	47	14	are	be	VBP
work_ydypvtvejbby3ieiuc7quu6yge	47	15	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	47	16	Brazing	Brazing	NNP
work_ydypvtvejbby3ieiuc7quu6yge	47	17	powder	powder	NN
work_ydypvtvejbby3ieiuc7quu6yge	47	18	1000101-MPIF	1000101-mpif	CD
work_ydypvtvejbby3ieiuc7quu6yge	47	19	FLC:4405	FLC:4405	NNS
work_ydypvtvejbby3ieiuc7quu6yge	47	20	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	47	21	1000111-	1000111-	CD
work_ydypvtvejbby3ieiuc7quu6yge	47	22	MPIF	MPIF	NNP
work_ydypvtvejbby3ieiuc7quu6yge	47	23	FLC-4808	FLC-4808	NNP
work_ydypvtvejbby3ieiuc7quu6yge	47	24	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	48	1	These	these	DT
work_ydypvtvejbby3ieiuc7quu6yge	48	2	are	be	VBP
work_ydypvtvejbby3ieiuc7quu6yge	48	3	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	48	4	two	two	CD
work_ydypvtvejbby3ieiuc7quu6yge	48	5	most	most	RBS
work_ydypvtvejbby3ieiuc7quu6yge	48	6	used	used	JJ
work_ydypvtvejbby3ieiuc7quu6yge	48	7	powder	powder	NN
work_ydypvtvejbby3ieiuc7quu6yge	48	8	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	48	9	Burgess	Burgess	NNP
work_ydypvtvejbby3ieiuc7quu6yge	48	10	Norton	Norton	NNP
work_ydypvtvejbby3ieiuc7quu6yge	48	11	Mfg	Mfg	NNP
work_ydypvtvejbby3ieiuc7quu6yge	48	12	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	49	1	Co.	Co.	NNP
work_ydypvtvejbby3ieiuc7quu6yge	49	2	(	(	-LRB-
work_ydypvtvejbby3ieiuc7quu6yge	49	3	Geneva	Geneva	NNP
work_ydypvtvejbby3ieiuc7quu6yge	49	4	Illinois	Illinois	NNP
work_ydypvtvejbby3ieiuc7quu6yge	49	5	)	)	-RRB-
work_ydypvtvejbby3ieiuc7quu6yge	49	6	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	50	1	The	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	50	2	sinter	sinter	JJ
work_ydypvtvejbby3ieiuc7quu6yge	50	3	brazing	braze	VBG
work_ydypvtvejbby3ieiuc7quu6yge	50	4	paste	paste	NN
work_ydypvtvejbby3ieiuc7quu6yge	50	5	is	be	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	50	6	used	use	VBN
work_ydypvtvejbby3ieiuc7quu6yge	50	7	SCM	SCM	NNP
work_ydypvtvejbby3ieiuc7quu6yge	50	8	-	-	HYPH
work_ydypvtvejbby3ieiuc7quu6yge	50	9	Sinter	Sinter	NNP
work_ydypvtvejbby3ieiuc7quu6yge	50	10	Braze	Braze	NNP
work_ydypvtvejbby3ieiuc7quu6yge	50	11	Grade	Grade	NNP
work_ydypvtvejbby3ieiuc7quu6yge	50	12	:	:	:
work_ydypvtvejbby3ieiuc7quu6yge	50	13	C-458	c-458	VB
work_ydypvtvejbby3ieiuc7quu6yge	50	14	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	50	15	SCM	SCM	NNP
work_ydypvtvejbby3ieiuc7quu6yge	50	16	-	-	HYPH
work_ydypvtvejbby3ieiuc7quu6yge	50	17	Sinter	Sinter	NNP
work_ydypvtvejbby3ieiuc7quu6yge	50	18	Braze	Braze	NNP
work_ydypvtvejbby3ieiuc7quu6yge	50	19	Grade	Grade	NNP
work_ydypvtvejbby3ieiuc7quu6yge	50	20	:	:	:
work_ydypvtvejbby3ieiuc7quu6yge	50	21	EXP6778	EXP6778	NNP
work_ydypvtvejbby3ieiuc7quu6yge	50	22	-	-	HYPH
work_ydypvtvejbby3ieiuc7quu6yge	50	23	99	99	CD
work_ydypvtvejbby3ieiuc7quu6yge	50	24	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	51	1	TYPE	type	NN
work_ydypvtvejbby3ieiuc7quu6yge	51	2	GRADE	grade	NN
work_ydypvtvejbby3ieiuc7quu6yge	51	3	DESCRIPTION	description	NN
work_ydypvtvejbby3ieiuc7quu6yge	51	4	Pre	pre	JJ
work_ydypvtvejbby3ieiuc7quu6yge	51	5	-	-	JJ
work_ydypvtvejbby3ieiuc7quu6yge	51	6	alloyed	alloy	VBN
work_ydypvtvejbby3ieiuc7quu6yge	51	7	Steel	Steel	NNP
work_ydypvtvejbby3ieiuc7quu6yge	51	8	FL-4405	FL-4405	NNP
work_ydypvtvejbby3ieiuc7quu6yge	51	9	Low	Low	NNP
work_ydypvtvejbby3ieiuc7quu6yge	51	10	alloy	alloy	NN
work_ydypvtvejbby3ieiuc7quu6yge	51	11	steel	steel	NN
work_ydypvtvejbby3ieiuc7quu6yge	51	12	with	with	IN
work_ydypvtvejbby3ieiuc7quu6yge	51	13	pre	pre	JJ
work_ydypvtvejbby3ieiuc7quu6yge	51	14	alloyed	alloy	VBN
work_ydypvtvejbby3ieiuc7quu6yge	51	15	manganese	manganese	NNP
work_ydypvtvejbby3ieiuc7quu6yge	51	16	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	51	17	molybdenum	molybdenum	NN
work_ydypvtvejbby3ieiuc7quu6yge	51	18	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	51	19	nickel	nickel	NN
work_ydypvtvejbby3ieiuc7quu6yge	51	20	content	content	NN
work_ydypvtvejbby3ieiuc7quu6yge	51	21	for	for	IN
work_ydypvtvejbby3ieiuc7quu6yge	51	22	better	well	JJR
work_ydypvtvejbby3ieiuc7quu6yge	51	23	hardenability	hardenability	NN
work_ydypvtvejbby3ieiuc7quu6yge	51	24	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	52	1	Hybrid	hybrid	NN
work_ydypvtvejbby3ieiuc7quu6yge	52	2	-	-	HYPH
work_ydypvtvejbby3ieiuc7quu6yge	52	3	alloy	alloy	NN
work_ydypvtvejbby3ieiuc7quu6yge	52	4	Steel	Steel	NNP
work_ydypvtvejbby3ieiuc7quu6yge	52	5	FLN2	FLN2	NNP
work_ydypvtvejbby3ieiuc7quu6yge	52	6	-	-	HYPH
work_ydypvtvejbby3ieiuc7quu6yge	52	7	4405	4405	CD
work_ydypvtvejbby3ieiuc7quu6yge	52	8	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	52	9	FLN4	FLN4	NNP
work_ydypvtvejbby3ieiuc7quu6yge	52	10	-	-	HYPH
work_ydypvtvejbby3ieiuc7quu6yge	52	11	4400	4400	CD
work_ydypvtvejbby3ieiuc7quu6yge	52	12	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	52	13	FLN4-	fln4-	JJ
work_ydypvtvejbby3ieiuc7quu6yge	52	14	4405	4405	CD
work_ydypvtvejbby3ieiuc7quu6yge	52	15	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	52	16	FLN6	FLN6	NNP
work_ydypvtvejbby3ieiuc7quu6yge	52	17	-	-	HYPH
work_ydypvtvejbby3ieiuc7quu6yge	52	18	4405	4405	CD
work_ydypvtvejbby3ieiuc7quu6yge	52	19	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	52	20	FLNC-4405	FLNC-4405	NNP
work_ydypvtvejbby3ieiuc7quu6yge	52	21	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	52	22	Low	Low	NNP
work_ydypvtvejbby3ieiuc7quu6yge	52	23	alloy	alloy	NN
work_ydypvtvejbby3ieiuc7quu6yge	52	24	steel	steel	NN
work_ydypvtvejbby3ieiuc7quu6yge	52	25	with	with	IN
work_ydypvtvejbby3ieiuc7quu6yge	52	26	pre	pre	JJ
work_ydypvtvejbby3ieiuc7quu6yge	52	27	alloyed	alloy	VBN
work_ydypvtvejbby3ieiuc7quu6yge	52	28	molybdenum	molybdenum	NN
work_ydypvtvejbby3ieiuc7quu6yge	52	29	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	52	30	admixed	admix	VBN
work_ydypvtvejbby3ieiuc7quu6yge	52	31	nickel	nickel	NN
work_ydypvtvejbby3ieiuc7quu6yge	52	32	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	52	33	copper	copper	NN
work_ydypvtvejbby3ieiuc7quu6yge	52	34	for	for	IN
work_ydypvtvejbby3ieiuc7quu6yge	52	35	better	well	JJR
work_ydypvtvejbby3ieiuc7quu6yge	52	36	compressibility	compressibility	NN
work_ydypvtvejbby3ieiuc7quu6yge	52	37	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	53	1	Table:1	Table:1	NNP
work_ydypvtvejbby3ieiuc7quu6yge	53	2	For	for	IN
work_ydypvtvejbby3ieiuc7quu6yge	53	3	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	53	4	procedure	procedure	NN
work_ydypvtvejbby3ieiuc7quu6yge	53	5	weight	weight	NN
work_ydypvtvejbby3ieiuc7quu6yge	53	6	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	53	7	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	53	8	powder	powder	NN
work_ydypvtvejbby3ieiuc7quu6yge	53	9	used	use	VBD
work_ydypvtvejbby3ieiuc7quu6yge	53	10	18.5	18.5	CD
work_ydypvtvejbby3ieiuc7quu6yge	53	11	to	to	IN
work_ydypvtvejbby3ieiuc7quu6yge	53	12	20.00	20.00	CD
work_ydypvtvejbby3ieiuc7quu6yge	53	13	grams	gram	NNS
work_ydypvtvejbby3ieiuc7quu6yge	53	14	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	54	1	Selected	select	VBN
work_ydypvtvejbby3ieiuc7quu6yge	54	2	TSI	TSI	NNP
work_ydypvtvejbby3ieiuc7quu6yge	54	3	is	be	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	54	4	33	33	CD
work_ydypvtvejbby3ieiuc7quu6yge	54	5	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	54	6	35	35	CD
work_ydypvtvejbby3ieiuc7quu6yge	54	7	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	55	1	And	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	55	2	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	55	3	pressure	pressure	NN
work_ydypvtvejbby3ieiuc7quu6yge	55	4	used	use	VBN
work_ydypvtvejbby3ieiuc7quu6yge	55	5	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	55	6	test	test	VB
work_ydypvtvejbby3ieiuc7quu6yge	55	7	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	55	8	shear	shear	NN
work_ydypvtvejbby3ieiuc7quu6yge	55	9	strength	strength	NN
work_ydypvtvejbby3ieiuc7quu6yge	55	10	is	be	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	55	11	39,197lbs	39,197lb	NNS
work_ydypvtvejbby3ieiuc7quu6yge	55	12	to	to	IN
work_ydypvtvejbby3ieiuc7quu6yge	55	13	43	43	CD
work_ydypvtvejbby3ieiuc7quu6yge	55	14	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	55	15	761lbs.for	761lbs.for	IN
work_ydypvtvejbby3ieiuc7quu6yge	55	16	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	55	17	testing	testing	NN
work_ydypvtvejbby3ieiuc7quu6yge	55	18	density	density	NN
work_ydypvtvejbby3ieiuc7quu6yge	55	19	needed	need	VBN
work_ydypvtvejbby3ieiuc7quu6yge	55	20	was	be	VBD
work_ydypvtvejbby3ieiuc7quu6yge	55	21	6.7	6.7	CD
work_ydypvtvejbby3ieiuc7quu6yge	55	22	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	55	23	6.9	6.9	CD
work_ydypvtvejbby3ieiuc7quu6yge	55	24	g	g	NN
work_ydypvtvejbby3ieiuc7quu6yge	55	25	/	/	SYM
work_ydypvtvejbby3ieiuc7quu6yge	55	26	cm^3	cm^3	NN
work_ydypvtvejbby3ieiuc7quu6yge	55	27	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	56	1	Brazing	brazing	NN
work_ydypvtvejbby3ieiuc7quu6yge	56	2	slugs	slug	NNS
work_ydypvtvejbby3ieiuc7quu6yge	56	3	weighted	weight	VBD
work_ydypvtvejbby3ieiuc7quu6yge	56	4	length	length	NN
work_ydypvtvejbby3ieiuc7quu6yge	56	5	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	56	6	1.2	1.2	CD
work_ydypvtvejbby3ieiuc7quu6yge	56	7	mm	mm	CD
work_ydypvtvejbby3ieiuc7quu6yge	56	8	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	56	9	width	width	NNP
work_ydypvtvejbby3ieiuc7quu6yge	56	10	0.5	0.5	CD
work_ydypvtvejbby3ieiuc7quu6yge	56	11	mm	mm	NNS
work_ydypvtvejbby3ieiuc7quu6yge	56	12	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	56	13	approximate	approximate	JJ
work_ydypvtvejbby3ieiuc7quu6yge	56	14	Height	Height	NNP
work_ydypvtvejbby3ieiuc7quu6yge	56	15	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	56	16	0.2	0.2	CD
work_ydypvtvejbby3ieiuc7quu6yge	56	17	mm	mm	NNS
work_ydypvtvejbby3ieiuc7quu6yge	56	18	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	57	1	Brazing	braze	VBG
work_ydypvtvejbby3ieiuc7quu6yge	57	2	material	material	NN
work_ydypvtvejbby3ieiuc7quu6yge	57	3	used	use	VBD
work_ydypvtvejbby3ieiuc7quu6yge	57	4	a	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	57	5	sinter	sinter	JJ
work_ydypvtvejbby3ieiuc7quu6yge	57	6	brazing	braze	VBG
work_ydypvtvejbby3ieiuc7quu6yge	57	7	paste	paste	NN
work_ydypvtvejbby3ieiuc7quu6yge	57	8	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	57	9	in	in	IN
work_ydypvtvejbby3ieiuc7quu6yge	57	10	which	which	WDT
work_ydypvtvejbby3ieiuc7quu6yge	57	11	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	57	12	weight	weight	NN
work_ydypvtvejbby3ieiuc7quu6yge	57	13	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	57	14	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	57	15	paste	paste	NN
work_ydypvtvejbby3ieiuc7quu6yge	57	16	used	use	VBD
work_ydypvtvejbby3ieiuc7quu6yge	57	17	around	around	IN
work_ydypvtvejbby3ieiuc7quu6yge	57	18	0.15	0.15	CD
work_ydypvtvejbby3ieiuc7quu6yge	57	19	to	to	IN
work_ydypvtvejbby3ieiuc7quu6yge	57	20	0.20grams	0.20gram	NNS
work_ydypvtvejbby3ieiuc7quu6yge	57	21	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	58	1	Molybdenum-	Molybdenum-	NNP
work_ydypvtvejbby3ieiuc7quu6yge	58	2	Nickel	Nickel	NNP
work_ydypvtvejbby3ieiuc7quu6yge	58	3	-	-	HYPH
work_ydypvtvejbby3ieiuc7quu6yge	58	4	Steel-	Steel-	NNP
work_ydypvtvejbby3ieiuc7quu6yge	58	5	pre	pre	NN
work_ydypvtvejbby3ieiuc7quu6yge	58	6	alloyed-	alloyed-	JJ
work_ydypvtvejbby3ieiuc7quu6yge	58	7	As	as	IN
work_ydypvtvejbby3ieiuc7quu6yge	58	8	sintered	sinter	VBN
work_ydypvtvejbby3ieiuc7quu6yge	58	9	Table:2	Table:2	NNP
work_ydypvtvejbby3ieiuc7quu6yge	58	10	Molybdenum	Molybdenum	NNP
work_ydypvtvejbby3ieiuc7quu6yge	58	11	-	-	HYPH
work_ydypvtvejbby3ieiuc7quu6yge	58	12	Nickel	Nickel	NNP
work_ydypvtvejbby3ieiuc7quu6yge	58	13	Steel	Steel	NNP
work_ydypvtvejbby3ieiuc7quu6yge	58	14	–	–	:
work_ydypvtvejbby3ieiuc7quu6yge	58	15	Pre	pre	JJ
work_ydypvtvejbby3ieiuc7quu6yge	58	16	-	-	JJ
work_ydypvtvejbby3ieiuc7quu6yge	58	17	alloyed	alloy	VBN
work_ydypvtvejbby3ieiuc7quu6yge	58	18	–	–	:
work_ydypvtvejbby3ieiuc7quu6yge	58	19	Heat	heat	NN
work_ydypvtvejbby3ieiuc7quu6yge	58	20	-	-	HYPH
work_ydypvtvejbby3ieiuc7quu6yge	58	21	treated	treat	VBN
work_ydypvtvejbby3ieiuc7quu6yge	58	22	Table:3	Table:3	NNP
work_ydypvtvejbby3ieiuc7quu6yge	58	23	Reference	Reference	NNP
work_ydypvtvejbby3ieiuc7quu6yge	58	24	:	:	:
work_ydypvtvejbby3ieiuc7quu6yge	58	25	https://www.ssisintered.com/materials/low-alloy-molybdenum-nickel-steels	https://www.ssisintered.com/materials/low-alloy-molybdenum-nickel-steels	NNP
work_ydypvtvejbby3ieiuc7quu6yge	58	26	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	59	1	[	[	-LRB-
work_ydypvtvejbby3ieiuc7quu6yge	59	2	10	10	CD
work_ydypvtvejbby3ieiuc7quu6yge	59	3	]	]	-RRB-
work_ydypvtvejbby3ieiuc7quu6yge	59	4	Method	Method	NNP
work_ydypvtvejbby3ieiuc7quu6yge	59	5	:	:	:
work_ydypvtvejbby3ieiuc7quu6yge	59	6	Make	make	VB
work_ydypvtvejbby3ieiuc7quu6yge	59	7	slugs	slug	NNS
work_ydypvtvejbby3ieiuc7quu6yge	59	8	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	59	9	powder	powder	NN
work_ydypvtvejbby3ieiuc7quu6yge	59	10	Brazing	Brazing	NNP
work_ydypvtvejbby3ieiuc7quu6yge	59	11	powder	powder	NN
work_ydypvtvejbby3ieiuc7quu6yge	59	12	1000101-MPIF	1000101-mpif	CD
work_ydypvtvejbby3ieiuc7quu6yge	59	13	FLC:4405	FLC:4405	NNS
work_ydypvtvejbby3ieiuc7quu6yge	59	14	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	59	15	1000111-MPIF	1000111-mpif	CD
work_ydypvtvejbby3ieiuc7quu6yge	59	16	FLC-4808	FLC-4808	NNP
work_ydypvtvejbby3ieiuc7quu6yge	59	17	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	59	18	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	59	19	basic	basic	JJ
work_ydypvtvejbby3ieiuc7quu6yge	59	20	requirement	requirement	NN
work_ydypvtvejbby3ieiuc7quu6yge	59	21	for	for	IN
work_ydypvtvejbby3ieiuc7quu6yge	59	22	making	make	VBG
work_ydypvtvejbby3ieiuc7quu6yge	59	23	slugs	slug	NNS
work_ydypvtvejbby3ieiuc7quu6yge	59	24	is	be	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	59	25	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	59	26	get	get	VB
work_ydypvtvejbby3ieiuc7quu6yge	59	27	a	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	59	28	density	density	NN
work_ydypvtvejbby3ieiuc7quu6yge	59	29	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	59	30	6.7	6.7	CD
work_ydypvtvejbby3ieiuc7quu6yge	59	31	to	to	IN
work_ydypvtvejbby3ieiuc7quu6yge	59	32	6.9g	6.9g	CD
work_ydypvtvejbby3ieiuc7quu6yge	59	33	/	/	SYM
work_ydypvtvejbby3ieiuc7quu6yge	59	34	cm^3	cm^3	CD
work_ydypvtvejbby3ieiuc7quu6yge	59	35	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	60	1	Once	once	IN
work_ydypvtvejbby3ieiuc7quu6yge	60	2	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	60	3	density	density	NN
work_ydypvtvejbby3ieiuc7quu6yge	60	4	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	60	5	slugs	slug	NNS
work_ydypvtvejbby3ieiuc7quu6yge	60	6	are	be	VBP
work_ydypvtvejbby3ieiuc7quu6yge	60	7	made	make	VBN
work_ydypvtvejbby3ieiuc7quu6yge	60	8	use	use	NN
work_ydypvtvejbby3ieiuc7quu6yge	60	9	sinter	sinter	JJ
work_ydypvtvejbby3ieiuc7quu6yge	60	10	brazing	braze	VBG
work_ydypvtvejbby3ieiuc7quu6yge	60	11	paste	paste	NN
work_ydypvtvejbby3ieiuc7quu6yge	60	12	on	on	IN
work_ydypvtvejbby3ieiuc7quu6yge	60	13	both	both	CC
work_ydypvtvejbby3ieiuc7quu6yge	60	14	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	60	15	different	different	JJ
work_ydypvtvejbby3ieiuc7quu6yge	60	16	products	product	NNS
work_ydypvtvejbby3ieiuc7quu6yge	60	17	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	61	1	Once	once	IN
work_ydypvtvejbby3ieiuc7quu6yge	61	2	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	61	3	brazing	brazing	NN
work_ydypvtvejbby3ieiuc7quu6yge	61	4	material	material	NN
work_ydypvtvejbby3ieiuc7quu6yge	61	5	is	be	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	61	6	applied	apply	VBN
work_ydypvtvejbby3ieiuc7quu6yge	61	7	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	61	8	brazed	brazed	JJ
work_ydypvtvejbby3ieiuc7quu6yge	61	9	parts	part	NNS
work_ydypvtvejbby3ieiuc7quu6yge	61	10	are	be	VBP
work_ydypvtvejbby3ieiuc7quu6yge	61	11	ready	ready	JJ
work_ydypvtvejbby3ieiuc7quu6yge	61	12	for	for	IN
work_ydypvtvejbby3ieiuc7quu6yge	61	13	sintering	sinter	VBG
work_ydypvtvejbby3ieiuc7quu6yge	61	14	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	62	1	Sintering	sintering	NN
work_ydypvtvejbby3ieiuc7quu6yge	62	2	is	be	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	62	3	effective	effective	JJ
work_ydypvtvejbby3ieiuc7quu6yge	62	4	when	when	WRB
work_ydypvtvejbby3ieiuc7quu6yge	62	5	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	62	6	process	process	NN
work_ydypvtvejbby3ieiuc7quu6yge	62	7	reduces	reduce	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	62	8	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	62	9	porosity	porosity	NN
work_ydypvtvejbby3ieiuc7quu6yge	62	10	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	62	11	enhances	enhance	NNS
work_ydypvtvejbby3ieiuc7quu6yge	62	12	properties	property	NNS
work_ydypvtvejbby3ieiuc7quu6yge	62	13	such	such	JJ
work_ydypvtvejbby3ieiuc7quu6yge	62	14	as	as	IN
work_ydypvtvejbby3ieiuc7quu6yge	62	15	strength	strength	NN
work_ydypvtvejbby3ieiuc7quu6yge	62	16	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	62	17	electrical	electrical	JJ
work_ydypvtvejbby3ieiuc7quu6yge	62	18	conductivity	conductivity	NN
work_ydypvtvejbby3ieiuc7quu6yge	62	19	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	62	20	transparency	transparency	NN
work_ydypvtvejbby3ieiuc7quu6yge	62	21	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	62	22	thermal	thermal	JJ
work_ydypvtvejbby3ieiuc7quu6yge	62	23	conductivity	conductivity	NN
work_ydypvtvejbby3ieiuc7quu6yge	62	24	;	;	:
work_ydypvtvejbby3ieiuc7quu6yge	62	25	yet	yet	CC
work_ydypvtvejbby3ieiuc7quu6yge	62	26	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	62	27	in	in	IN
work_ydypvtvejbby3ieiuc7quu6yge	62	28	other	other	JJ
work_ydypvtvejbby3ieiuc7quu6yge	62	29	cases	case	NNS
work_ydypvtvejbby3ieiuc7quu6yge	62	30	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	62	31	it	-PRON-	PRP
work_ydypvtvejbby3ieiuc7quu6yge	62	32	may	may	MD
work_ydypvtvejbby3ieiuc7quu6yge	62	33	be	be	VB
work_ydypvtvejbby3ieiuc7quu6yge	62	34	useful	useful	JJ
work_ydypvtvejbby3ieiuc7quu6yge	62	35	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	62	36	increase	increase	VB
work_ydypvtvejbby3ieiuc7quu6yge	62	37	its	-PRON-	PRP$
work_ydypvtvejbby3ieiuc7quu6yge	62	38	strength	strength	NN
work_ydypvtvejbby3ieiuc7quu6yge	62	39	but	but	CC
work_ydypvtvejbby3ieiuc7quu6yge	62	40	keep	keep	VB
work_ydypvtvejbby3ieiuc7quu6yge	62	41	its	-PRON-	PRP$
work_ydypvtvejbby3ieiuc7quu6yge	62	42	gas	gas	NN
work_ydypvtvejbby3ieiuc7quu6yge	62	43	absorbency	absorbency	NN
work_ydypvtvejbby3ieiuc7quu6yge	62	44	constant	constant	JJ
work_ydypvtvejbby3ieiuc7quu6yge	62	45	as	as	IN
work_ydypvtvejbby3ieiuc7quu6yge	62	46	in	in	IN
work_ydypvtvejbby3ieiuc7quu6yge	62	47	filters	filter	NNS
work_ydypvtvejbby3ieiuc7quu6yge	62	48	or	or	CC
work_ydypvtvejbby3ieiuc7quu6yge	62	49	catalysts	catalyst	NNS
work_ydypvtvejbby3ieiuc7quu6yge	62	50	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	63	1	During	during	IN
work_ydypvtvejbby3ieiuc7quu6yge	63	2	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	63	3	firing	firing	NN
work_ydypvtvejbby3ieiuc7quu6yge	63	4	process	process	NN
work_ydypvtvejbby3ieiuc7quu6yge	63	5	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	63	6	atomic	atomic	JJ
work_ydypvtvejbby3ieiuc7quu6yge	63	7	diffusion	diffusion	NN
work_ydypvtvejbby3ieiuc7quu6yge	63	8	drives	drive	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	63	9	powder	powder	NN
work_ydypvtvejbby3ieiuc7quu6yge	63	10	surface	surface	NN
work_ydypvtvejbby3ieiuc7quu6yge	63	11	elimination	elimination	NN
work_ydypvtvejbby3ieiuc7quu6yge	63	12	in	in	IN
work_ydypvtvejbby3ieiuc7quu6yge	63	13	different	different	JJ
work_ydypvtvejbby3ieiuc7quu6yge	63	14	stages	stage	NNS
work_ydypvtvejbby3ieiuc7quu6yge	63	15	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	63	16	starting	start	VBG
work_ydypvtvejbby3ieiuc7quu6yge	63	17	from	from	IN
work_ydypvtvejbby3ieiuc7quu6yge	63	18	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	63	19	formation	formation	NN
work_ydypvtvejbby3ieiuc7quu6yge	63	20	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	63	21	necks	neck	NNS
work_ydypvtvejbby3ieiuc7quu6yge	63	22	between	between	IN
work_ydypvtvejbby3ieiuc7quu6yge	63	23	powders	powder	NNS
work_ydypvtvejbby3ieiuc7quu6yge	63	24	to	to	IN
work_ydypvtvejbby3ieiuc7quu6yge	63	25	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	63	26	final	final	JJ
work_ydypvtvejbby3ieiuc7quu6yge	63	27	elimination	elimination	NN
work_ydypvtvejbby3ieiuc7quu6yge	63	28	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	63	29	small	small	JJ
work_ydypvtvejbby3ieiuc7quu6yge	63	30	pores	pore	NNS
work_ydypvtvejbby3ieiuc7quu6yge	63	31	at	at	IN
work_ydypvtvejbby3ieiuc7quu6yge	63	32	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	63	33	end	end	NN
work_ydypvtvejbby3ieiuc7quu6yge	63	34	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	63	35	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	63	36	process	process	NN
work_ydypvtvejbby3ieiuc7quu6yge	63	37	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	64	1	In	in	IN
work_ydypvtvejbby3ieiuc7quu6yge	64	2	a	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	64	3	furnace	furnace	NN
work_ydypvtvejbby3ieiuc7quu6yge	64	4	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	64	5	test	test	VB
work_ydypvtvejbby3ieiuc7quu6yge	64	6	brazed	brazed	JJ
work_ydypvtvejbby3ieiuc7quu6yge	64	7	parts	part	NNS
work_ydypvtvejbby3ieiuc7quu6yge	64	8	are	be	VBP
work_ydypvtvejbby3ieiuc7quu6yge	64	9	heated	heat	VBN
work_ydypvtvejbby3ieiuc7quu6yge	64	10	for	for	IN
work_ydypvtvejbby3ieiuc7quu6yge	64	11	16	16	CD
work_ydypvtvejbby3ieiuc7quu6yge	64	12	hours	hour	NNS
work_ydypvtvejbby3ieiuc7quu6yge	64	13	cycle	cycle	NN
work_ydypvtvejbby3ieiuc7quu6yge	64	14	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	64	15	at	at	IN
work_ydypvtvejbby3ieiuc7quu6yge	64	16	1600c	1600c	CD
work_ydypvtvejbby3ieiuc7quu6yge	64	17	temperature	temperature	NN
work_ydypvtvejbby3ieiuc7quu6yge	64	18	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	65	1	Once	once	IN
work_ydypvtvejbby3ieiuc7quu6yge	65	2	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	65	3	sintering	sintering	NN
work_ydypvtvejbby3ieiuc7quu6yge	65	4	is	be	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	65	5	done	do	VBN
work_ydypvtvejbby3ieiuc7quu6yge	65	6	slugs	slug	NNS
work_ydypvtvejbby3ieiuc7quu6yge	65	7	were	be	VBD
work_ydypvtvejbby3ieiuc7quu6yge	65	8	being	be	VBG
work_ydypvtvejbby3ieiuc7quu6yge	65	9	tested	test	VBN
work_ydypvtvejbby3ieiuc7quu6yge	65	10	for	for	IN
work_ydypvtvejbby3ieiuc7quu6yge	65	11	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	65	12	shear	shear	NN
work_ydypvtvejbby3ieiuc7quu6yge	65	13	strength	strength	NN
work_ydypvtvejbby3ieiuc7quu6yge	65	14	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	66	1	Once	once	IN
work_ydypvtvejbby3ieiuc7quu6yge	66	2	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	66	3	product	product	NN
work_ydypvtvejbby3ieiuc7quu6yge	66	4	is	be	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	66	5	sintered	sinter	VBN
work_ydypvtvejbby3ieiuc7quu6yge	66	6	then	then	RB
work_ydypvtvejbby3ieiuc7quu6yge	66	7	there	there	EX
work_ydypvtvejbby3ieiuc7quu6yge	66	8	are	be	VBP
work_ydypvtvejbby3ieiuc7quu6yge	66	9	two	two	CD
work_ydypvtvejbby3ieiuc7quu6yge	66	10	possibilities	possibility	NNS
work_ydypvtvejbby3ieiuc7quu6yge	66	11	for	for	IN
work_ydypvtvejbby3ieiuc7quu6yge	66	12	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	66	13	heat	heat	NN
work_ydypvtvejbby3ieiuc7quu6yge	66	14	treatment	treatment	NN
work_ydypvtvejbby3ieiuc7quu6yge	66	15	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	66	16	there	there	EX
work_ydypvtvejbby3ieiuc7quu6yge	66	17	might	may	MD
work_ydypvtvejbby3ieiuc7quu6yge	66	18	be	be	VB
work_ydypvtvejbby3ieiuc7quu6yge	66	19	a	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	66	20	chance	chance	NN
work_ydypvtvejbby3ieiuc7quu6yge	66	21	that	that	IN
work_ydypvtvejbby3ieiuc7quu6yge	66	22	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	66	23	product	product	NN
work_ydypvtvejbby3ieiuc7quu6yge	66	24	might	may	MD
work_ydypvtvejbby3ieiuc7quu6yge	66	25	get	get	VB
work_ydypvtvejbby3ieiuc7quu6yge	66	26	melt	melt	VB
work_ydypvtvejbby3ieiuc7quu6yge	66	27	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	66	28	or	or	CC
work_ydypvtvejbby3ieiuc7quu6yge	66	29	its	-PRON-	PRP$
work_ydypvtvejbby3ieiuc7quu6yge	66	30	bond	bond	NN
work_ydypvtvejbby3ieiuc7quu6yge	66	31	gets	get	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	66	32	stronger	strong	JJR
work_ydypvtvejbby3ieiuc7quu6yge	66	33	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	67	1	But	but	CC
work_ydypvtvejbby3ieiuc7quu6yge	67	2	there	there	EX
work_ydypvtvejbby3ieiuc7quu6yge	67	3	are	be	VBP
work_ydypvtvejbby3ieiuc7quu6yge	67	4	high	high	JJ
work_ydypvtvejbby3ieiuc7quu6yge	67	5	chances	chance	NNS
work_ydypvtvejbby3ieiuc7quu6yge	67	6	that	that	IN
work_ydypvtvejbby3ieiuc7quu6yge	67	7	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	67	8	product	product	NN
work_ydypvtvejbby3ieiuc7quu6yge	67	9	gets	get	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	67	10	melted	melt	VBN
work_ydypvtvejbby3ieiuc7quu6yge	67	11	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	68	1	After	after	IN
work_ydypvtvejbby3ieiuc7quu6yge	68	2	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	68	3	sintering	sinter	VBG
work_ydypvtvejbby3ieiuc7quu6yge	68	4	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	68	5	https://www.ssisintered.com/materials/low-alloy-molybdenum-nickel-steels	https://www.ssisintered.com/materials/low-alloy-molybdenum-nickel-steels	NNP
work_ydypvtvejbby3ieiuc7quu6yge	68	6	heat	heat	NNP
work_ydypvtvejbby3ieiuc7quu6yge	68	7	treatment	treatment	NN
work_ydypvtvejbby3ieiuc7quu6yge	68	8	took	take	VBD
work_ydypvtvejbby3ieiuc7quu6yge	68	9	place	place	NN
work_ydypvtvejbby3ieiuc7quu6yge	68	10	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	68	11	Heat	Heat	NNP
work_ydypvtvejbby3ieiuc7quu6yge	68	12	treatment	treatment	NN
work_ydypvtvejbby3ieiuc7quu6yge	68	13	is	be	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	68	14	any	any	DT
work_ydypvtvejbby3ieiuc7quu6yge	68	15	one	one	CD
work_ydypvtvejbby3ieiuc7quu6yge	68	16	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	68	17	several	several	JJ
work_ydypvtvejbby3ieiuc7quu6yge	68	18	controlled	control	VBN
work_ydypvtvejbby3ieiuc7quu6yge	68	19	heating	heating	NN
work_ydypvtvejbby3ieiuc7quu6yge	68	20	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	68	21	cooling	cool	VBG
work_ydypvtvejbby3ieiuc7quu6yge	68	22	operations	operation	NNS
work_ydypvtvejbby3ieiuc7quu6yge	68	23	used	use	VBN
work_ydypvtvejbby3ieiuc7quu6yge	68	24	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	68	25	bring	bring	VB
work_ydypvtvejbby3ieiuc7quu6yge	68	26	about	about	RP
work_ydypvtvejbby3ieiuc7quu6yge	68	27	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	68	28	desired	desire	VBN
work_ydypvtvejbby3ieiuc7quu6yge	68	29	change	change	NN
work_ydypvtvejbby3ieiuc7quu6yge	68	30	in	in	IN
work_ydypvtvejbby3ieiuc7quu6yge	68	31	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	68	32	physical	physical	JJ
work_ydypvtvejbby3ieiuc7quu6yge	68	33	properties	property	NNS
work_ydypvtvejbby3ieiuc7quu6yge	68	34	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	68	35	a	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	68	36	metal	metal	NN
work_ydypvtvejbby3ieiuc7quu6yge	68	37	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	69	1	Its	-PRON-	PRP$
work_ydypvtvejbby3ieiuc7quu6yge	69	2	purpose	purpose	NN
work_ydypvtvejbby3ieiuc7quu6yge	69	3	is	be	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	69	4	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	69	5	improve	improve	VB
work_ydypvtvejbby3ieiuc7quu6yge	69	6	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	69	7	structural	structural	JJ
work_ydypvtvejbby3ieiuc7quu6yge	69	8	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	69	9	physical	physical	JJ
work_ydypvtvejbby3ieiuc7quu6yge	69	10	properties	property	NNS
work_ydypvtvejbby3ieiuc7quu6yge	69	11	for	for	IN
work_ydypvtvejbby3ieiuc7quu6yge	69	12	some	some	DT
work_ydypvtvejbby3ieiuc7quu6yge	69	13	particular	particular	JJ
work_ydypvtvejbby3ieiuc7quu6yge	69	14	use	use	NN
work_ydypvtvejbby3ieiuc7quu6yge	69	15	or	or	CC
work_ydypvtvejbby3ieiuc7quu6yge	69	16	for	for	IN
work_ydypvtvejbby3ieiuc7quu6yge	69	17	future	future	JJ
work_ydypvtvejbby3ieiuc7quu6yge	69	18	work	work	NN
work_ydypvtvejbby3ieiuc7quu6yge	69	19	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	69	20	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	69	21	metal	metal	NN
work_ydypvtvejbby3ieiuc7quu6yge	69	22	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	70	1	There	there	EX
work_ydypvtvejbby3ieiuc7quu6yge	70	2	are	be	VBP
work_ydypvtvejbby3ieiuc7quu6yge	70	3	five	five	CD
work_ydypvtvejbby3ieiuc7quu6yge	70	4	basic	basic	JJ
work_ydypvtvejbby3ieiuc7quu6yge	70	5	heat	heat	NN
work_ydypvtvejbby3ieiuc7quu6yge	70	6	-	-	HYPH
work_ydypvtvejbby3ieiuc7quu6yge	70	7	treating	treat	VBG
work_ydypvtvejbby3ieiuc7quu6yge	70	8	processes	process	NNS
work_ydypvtvejbby3ieiuc7quu6yge	70	9	:	:	:
work_ydypvtvejbby3ieiuc7quu6yge	70	10	hardening	harden	VBG
work_ydypvtvejbby3ieiuc7quu6yge	70	11	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	70	12	case	case	NN
work_ydypvtvejbby3ieiuc7quu6yge	70	13	hardening	harden	VBG
work_ydypvtvejbby3ieiuc7quu6yge	70	14	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	70	15	annealing	anneal	VBG
work_ydypvtvejbby3ieiuc7quu6yge	70	16	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	70	17	normalizing	normalizing	NN
work_ydypvtvejbby3ieiuc7quu6yge	70	18	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	70	19	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	70	20	tempering	tempering	NN
work_ydypvtvejbby3ieiuc7quu6yge	70	21	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	71	1	Although	although	IN
work_ydypvtvejbby3ieiuc7quu6yge	71	2	each	each	DT
work_ydypvtvejbby3ieiuc7quu6yge	71	3	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	71	4	these	these	DT
work_ydypvtvejbby3ieiuc7quu6yge	71	5	processes	process	NNS
work_ydypvtvejbby3ieiuc7quu6yge	71	6	brings	bring	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	71	7	about	about	IN
work_ydypvtvejbby3ieiuc7quu6yge	71	8	different	different	JJ
work_ydypvtvejbby3ieiuc7quu6yge	71	9	results	result	NNS
work_ydypvtvejbby3ieiuc7quu6yge	71	10	in	in	IN
work_ydypvtvejbby3ieiuc7quu6yge	71	11	metal	metal	NN
work_ydypvtvejbby3ieiuc7quu6yge	71	12	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	71	13	all	all	DT
work_ydypvtvejbby3ieiuc7quu6yge	71	14	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	71	15	them	-PRON-	PRP
work_ydypvtvejbby3ieiuc7quu6yge	71	16	involve	involve	VBP
work_ydypvtvejbby3ieiuc7quu6yge	71	17	three	three	CD
work_ydypvtvejbby3ieiuc7quu6yge	71	18	basic	basic	JJ
work_ydypvtvejbby3ieiuc7quu6yge	71	19	steps	step	NNS
work_ydypvtvejbby3ieiuc7quu6yge	71	20	:	:	:
work_ydypvtvejbby3ieiuc7quu6yge	71	21	heating	heating	NN
work_ydypvtvejbby3ieiuc7quu6yge	71	22	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	71	23	soaking	soaking	NN
work_ydypvtvejbby3ieiuc7quu6yge	71	24	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	71	25	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	71	26	cooling	cool	VBG
work_ydypvtvejbby3ieiuc7quu6yge	71	27	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	72	1	Heat	heat	NN
work_ydypvtvejbby3ieiuc7quu6yge	72	2	treatment	treatment	NN
work_ydypvtvejbby3ieiuc7quu6yge	72	3	steps	step	NNS
work_ydypvtvejbby3ieiuc7quu6yge	72	4	are	be	VBP
work_ydypvtvejbby3ieiuc7quu6yge	72	5	as	as	IN
work_ydypvtvejbby3ieiuc7quu6yge	72	6	followed	follow	VBN
work_ydypvtvejbby3ieiuc7quu6yge	72	7	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	72	8	heating	heating	NN
work_ydypvtvejbby3ieiuc7quu6yge	72	9	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	72	10	soaking	soak	VBG
work_ydypvtvejbby3ieiuc7quu6yge	72	11	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	72	12	cooling	cooling	NN
work_ydypvtvejbby3ieiuc7quu6yge	72	13	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	72	14	hardening	harden	VBG
work_ydypvtvejbby3ieiuc7quu6yge	72	15	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	72	16	tampering	tamper	VBG
work_ydypvtvejbby3ieiuc7quu6yge	72	17	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	73	1	Following	follow	VBG
work_ydypvtvejbby3ieiuc7quu6yge	73	2	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	73	3	heat	heat	NN
work_ydypvtvejbby3ieiuc7quu6yge	73	4	treatment	treatment	NN
work_ydypvtvejbby3ieiuc7quu6yge	73	5	process	process	NN
work_ydypvtvejbby3ieiuc7quu6yge	73	6	was	be	VBD
work_ydypvtvejbby3ieiuc7quu6yge	73	7	Air	air	NN
work_ydypvtvejbby3ieiuc7quu6yge	73	8	quenching	quench	VBG
work_ydypvtvejbby3ieiuc7quu6yge	73	9	carburizing	carburize	VBG
work_ydypvtvejbby3ieiuc7quu6yge	73	10	process	process	NN
work_ydypvtvejbby3ieiuc7quu6yge	73	11	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	74	1	Specification	specification	NN
work_ydypvtvejbby3ieiuc7quu6yge	74	2	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	74	3	this	this	DT
work_ydypvtvejbby3ieiuc7quu6yge	74	4	process	process	NN
work_ydypvtvejbby3ieiuc7quu6yge	74	5	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	74	6	A	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	74	7	Cycle	cycle	NN
work_ydypvtvejbby3ieiuc7quu6yge	74	8	–	–	:
work_ydypvtvejbby3ieiuc7quu6yge	74	9	Air	Air	NNP
work_ydypvtvejbby3ieiuc7quu6yge	74	10	Cooled	Cooled	NNP
work_ydypvtvejbby3ieiuc7quu6yge	74	11	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	74	12	Endo	Endo	NNP
work_ydypvtvejbby3ieiuc7quu6yge	74	13	Gas	Gas	NNP
work_ydypvtvejbby3ieiuc7quu6yge	74	14	Carburizing	carburize	VBG
work_ydypvtvejbby3ieiuc7quu6yge	74	15	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	74	16	Deep	Deep	NNP
work_ydypvtvejbby3ieiuc7quu6yge	74	17	Freeze	freeze	NN
work_ydypvtvejbby3ieiuc7quu6yge	74	18	Tempering	tempering	NN
work_ydypvtvejbby3ieiuc7quu6yge	74	19	–	–	:
work_ydypvtvejbby3ieiuc7quu6yge	74	20	150	150	CD
work_ydypvtvejbby3ieiuc7quu6yge	74	21	°	°	,
work_ydypvtvejbby3ieiuc7quu6yge	74	22	C	C	NNP
work_ydypvtvejbby3ieiuc7quu6yge	74	23	–	–	:
work_ydypvtvejbby3ieiuc7quu6yge	74	24	230	230	CD
work_ydypvtvejbby3ieiuc7quu6yge	74	25	°	°	,
work_ydypvtvejbby3ieiuc7quu6yge	74	26	C	c	NN
work_ydypvtvejbby3ieiuc7quu6yge	74	27	The	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	74	28	following	follow	VBG
work_ydypvtvejbby3ieiuc7quu6yge	74	29	figure	figure	NN
work_ydypvtvejbby3ieiuc7quu6yge	74	30	illustrates	illustrate	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	74	31	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	74	32	method	method	NN
work_ydypvtvejbby3ieiuc7quu6yge	74	33	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	74	34	use	use	VB
work_ydypvtvejbby3ieiuc7quu6yge	74	35	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	74	36	Universal	Universal	NNP
work_ydypvtvejbby3ieiuc7quu6yge	74	37	Tester	Tester	NNP
work_ydypvtvejbby3ieiuc7quu6yge	74	38	machine	machine	NN
work_ydypvtvejbby3ieiuc7quu6yge	74	39	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	74	40	separate	separate	VB
work_ydypvtvejbby3ieiuc7quu6yge	74	41	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	74	42	two	two	CD
work_ydypvtvejbby3ieiuc7quu6yge	74	43	brazed	brazed	JJ
work_ydypvtvejbby3ieiuc7quu6yge	74	44	components	component	NNS
work_ydypvtvejbby3ieiuc7quu6yge	74	45	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	74	46	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	74	47	calculate	calculate	VB
work_ydypvtvejbby3ieiuc7quu6yge	74	48	shear	shear	NN
work_ydypvtvejbby3ieiuc7quu6yge	74	49	strength	strength	NN
work_ydypvtvejbby3ieiuc7quu6yge	74	50	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	75	1	This	this	DT
work_ydypvtvejbby3ieiuc7quu6yge	75	2	device	device	NN
work_ydypvtvejbby3ieiuc7quu6yge	75	3	is	be	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	75	4	measuring	measure	VBG
work_ydypvtvejbby3ieiuc7quu6yge	75	5	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	75	6	rupture	rupture	NN
work_ydypvtvejbby3ieiuc7quu6yge	75	7	strength	strength	NN
work_ydypvtvejbby3ieiuc7quu6yge	75	8	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	76	1	Shear	shear	NN
work_ydypvtvejbby3ieiuc7quu6yge	76	2	strength	strength	NN
work_ydypvtvejbby3ieiuc7quu6yge	76	3	is	be	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	76	4	calculated	calculate	VBN
work_ydypvtvejbby3ieiuc7quu6yge	76	5	by	by	IN
work_ydypvtvejbby3ieiuc7quu6yge	76	6	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	76	7	following	follow	VBG
work_ydypvtvejbby3ieiuc7quu6yge	76	8	procedure	procedure	NN
work_ydypvtvejbby3ieiuc7quu6yge	76	9	:	:	:
work_ydypvtvejbby3ieiuc7quu6yge	76	10			:
work_ydypvtvejbby3ieiuc7quu6yge	76	11	Drill	drill	VB
work_ydypvtvejbby3ieiuc7quu6yge	76	12	a	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	76	13	0.25	0.25	CD
work_ydypvtvejbby3ieiuc7quu6yge	76	14	"	"	''
work_ydypvtvejbby3ieiuc7quu6yge	76	15	(	(	-LRB-
work_ydypvtvejbby3ieiuc7quu6yge	76	16	6.4	6.4	CD
work_ydypvtvejbby3ieiuc7quu6yge	76	17	mm	mm	CD
work_ydypvtvejbby3ieiuc7quu6yge	76	18	)	)	-RRB-
work_ydypvtvejbby3ieiuc7quu6yge	76	19	diameter	diameter	NN
work_ydypvtvejbby3ieiuc7quu6yge	76	20	hole	hole	NN
work_ydypvtvejbby3ieiuc7quu6yge	76	21	by	by	IN
work_ydypvtvejbby3ieiuc7quu6yge	76	22	0.125	0.125	CD
work_ydypvtvejbby3ieiuc7quu6yge	76	23	"	"	''
work_ydypvtvejbby3ieiuc7quu6yge	76	24	(	(	-LRB-
work_ydypvtvejbby3ieiuc7quu6yge	76	25	3.2	3.2	CD
work_ydypvtvejbby3ieiuc7quu6yge	76	26	mm	mm	NN
work_ydypvtvejbby3ieiuc7quu6yge	76	27	)	)	-RRB-
work_ydypvtvejbby3ieiuc7quu6yge	76	28	deep	deep	RB
work_ydypvtvejbby3ieiuc7quu6yge	76	29	through	through	IN
work_ydypvtvejbby3ieiuc7quu6yge	76	30	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	76	31	center	center	NN
work_ydypvtvejbby3ieiuc7quu6yge	76	32	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	76	33	braze	braze	NN
work_ydypvtvejbby3ieiuc7quu6yge	76	34			:
work_ydypvtvejbby3ieiuc7quu6yge	76	35	Place	place	VB
work_ydypvtvejbby3ieiuc7quu6yge	76	36	a	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	76	37	0.25	0.25	CD
work_ydypvtvejbby3ieiuc7quu6yge	76	38	"	"	``
work_ydypvtvejbby3ieiuc7quu6yge	76	39	Dowel	Dowel	NNP
work_ydypvtvejbby3ieiuc7quu6yge	76	40	pin	pin	NN
work_ydypvtvejbby3ieiuc7quu6yge	76	41	in	in	IN
work_ydypvtvejbby3ieiuc7quu6yge	76	42	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	76	43	hole	hole	NN
work_ydypvtvejbby3ieiuc7quu6yge	76	44	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	76	45	push	push	VB
work_ydypvtvejbby3ieiuc7quu6yge	76	46	down	down	RP
work_ydypvtvejbby3ieiuc7quu6yge	76	47	with	with	IN
work_ydypvtvejbby3ieiuc7quu6yge	76	48	tensile	tensile	JJ
work_ydypvtvejbby3ieiuc7quu6yge	76	49	tester	tester	NN
work_ydypvtvejbby3ieiuc7quu6yge	76	50	until	until	IN
work_ydypvtvejbby3ieiuc7quu6yge	76	51	part	part	NN
work_ydypvtvejbby3ieiuc7quu6yge	76	52	splits	split	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	76	53			:
work_ydypvtvejbby3ieiuc7quu6yge	76	54	Record	record	NN
work_ydypvtvejbby3ieiuc7quu6yge	76	55	reading	reading	NN
work_ydypvtvejbby3ieiuc7quu6yge	76	56	=	=	SYM
work_ydypvtvejbby3ieiuc7quu6yge	76	57	Breaking	Breaking	NNP
work_ydypvtvejbby3ieiuc7quu6yge	76	58	Load	Load	NNP
work_ydypvtvejbby3ieiuc7quu6yge	76	59	Results	result	NNS
work_ydypvtvejbby3ieiuc7quu6yge	76	60	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	76	61	conclusion	conclusion	NN
work_ydypvtvejbby3ieiuc7quu6yge	76	62	:	:	:
work_ydypvtvejbby3ieiuc7quu6yge	76	63	The	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	76	64	research	research	NN
work_ydypvtvejbby3ieiuc7quu6yge	76	65	took	take	VBD
work_ydypvtvejbby3ieiuc7quu6yge	76	66	place	place	NN
work_ydypvtvejbby3ieiuc7quu6yge	76	67	at	at	IN
work_ydypvtvejbby3ieiuc7quu6yge	76	68	Burgess	Burgess	NNP
work_ydypvtvejbby3ieiuc7quu6yge	76	69	Norton	Norton	NNP
work_ydypvtvejbby3ieiuc7quu6yge	76	70	Mfg	Mfg	NNP
work_ydypvtvejbby3ieiuc7quu6yge	76	71	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	77	1	[	[	-LRB-
work_ydypvtvejbby3ieiuc7quu6yge	77	2	9	9	CD
work_ydypvtvejbby3ieiuc7quu6yge	77	3	]	]	-RRB-
work_ydypvtvejbby3ieiuc7quu6yge	77	4	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	78	1	Co.	Co.	NNP
work_ydypvtvejbby3ieiuc7quu6yge	79	1	The	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	79	2	test	test	NN
work_ydypvtvejbby3ieiuc7quu6yge	79	3	showed	show	VBD
work_ydypvtvejbby3ieiuc7quu6yge	79	4	that	that	IN
work_ydypvtvejbby3ieiuc7quu6yge	79	5	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	79	6	brazing	brazing	NN
work_ydypvtvejbby3ieiuc7quu6yge	79	7	paste	paste	NN
work_ydypvtvejbby3ieiuc7quu6yge	79	8	SCM-	SCM-	NNP
work_ydypvtvejbby3ieiuc7quu6yge	79	9	Sinter	Sinter	NNP
work_ydypvtvejbby3ieiuc7quu6yge	79	10	Braze	Braze	NNP
work_ydypvtvejbby3ieiuc7quu6yge	79	11	Grade	Grade	NNP
work_ydypvtvejbby3ieiuc7quu6yge	79	12	:	:	:
work_ydypvtvejbby3ieiuc7quu6yge	79	13	EXP6778	EXP6778	NNP
work_ydypvtvejbby3ieiuc7quu6yge	79	14	-	-	HYPH
work_ydypvtvejbby3ieiuc7quu6yge	79	15	99	99	CD
work_ydypvtvejbby3ieiuc7quu6yge	79	16	showed	show	VBD
work_ydypvtvejbby3ieiuc7quu6yge	79	17	a	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	79	18	significant	significant	JJ
work_ydypvtvejbby3ieiuc7quu6yge	79	19	increase	increase	NN
work_ydypvtvejbby3ieiuc7quu6yge	79	20	in	in	IN
work_ydypvtvejbby3ieiuc7quu6yge	79	21	strength	strength	NN
work_ydypvtvejbby3ieiuc7quu6yge	79	22	in	in	IN
work_ydypvtvejbby3ieiuc7quu6yge	79	23	comparison	comparison	NN
work_ydypvtvejbby3ieiuc7quu6yge	79	24	to	to	IN
work_ydypvtvejbby3ieiuc7quu6yge	79	25	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	79	26	SCM	SCM	NNP
work_ydypvtvejbby3ieiuc7quu6yge	79	27	-	-	HYPH
work_ydypvtvejbby3ieiuc7quu6yge	79	28	Sinter	Sinter	NNP
work_ydypvtvejbby3ieiuc7quu6yge	79	29	Braze	Braze	NNP
work_ydypvtvejbby3ieiuc7quu6yge	79	30	Grade	Grade	NNP
work_ydypvtvejbby3ieiuc7quu6yge	79	31	:	:	:
work_ydypvtvejbby3ieiuc7quu6yge	79	32	C-458	C-458	NNP
work_ydypvtvejbby3ieiuc7quu6yge	79	33	paste	paste	NN
work_ydypvtvejbby3ieiuc7quu6yge	79	34	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	80	1	The	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	80	2	EXP6778	EXP6778	NNP
work_ydypvtvejbby3ieiuc7quu6yge	80	3	-	-	HYPH
work_ydypvtvejbby3ieiuc7quu6yge	80	4	99	99	CD
work_ydypvtvejbby3ieiuc7quu6yge	80	5	paste	paste	NN
work_ydypvtvejbby3ieiuc7quu6yge	80	6	was	be	VBD
work_ydypvtvejbby3ieiuc7quu6yge	80	7	also	also	RB
work_ydypvtvejbby3ieiuc7quu6yge	80	8	not	not	RB
work_ydypvtvejbby3ieiuc7quu6yge	80	9	affected	affect	VBN
work_ydypvtvejbby3ieiuc7quu6yge	80	10	by	by	IN
work_ydypvtvejbby3ieiuc7quu6yge	80	11	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	80	12	Heat	Heat	NNP
work_ydypvtvejbby3ieiuc7quu6yge	80	13	Treat	Treat	NNP
work_ydypvtvejbby3ieiuc7quu6yge	80	14	operation	operation	NN
work_ydypvtvejbby3ieiuc7quu6yge	80	15	(	(	-LRB-
work_ydypvtvejbby3ieiuc7quu6yge	80	16	typically	typically	RB
work_ydypvtvejbby3ieiuc7quu6yge	80	17	weakens	weaken	VBZ
work_ydypvtvejbby3ieiuc7quu6yge	80	18	)	)	-RRB-
work_ydypvtvejbby3ieiuc7quu6yge	80	19	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	81	1	This	this	DT
work_ydypvtvejbby3ieiuc7quu6yge	81	2	was	be	VBD
work_ydypvtvejbby3ieiuc7quu6yge	81	3	a	a	DT
work_ydypvtvejbby3ieiuc7quu6yge	81	4	significant	significant	JJ
work_ydypvtvejbby3ieiuc7quu6yge	81	5	finding	finding	NN
work_ydypvtvejbby3ieiuc7quu6yge	81	6	because	because	IN
work_ydypvtvejbby3ieiuc7quu6yge	81	7	no	no	DT
work_ydypvtvejbby3ieiuc7quu6yge	81	8	other	other	JJ
work_ydypvtvejbby3ieiuc7quu6yge	81	9	sinter	sinter	JJ
work_ydypvtvejbby3ieiuc7quu6yge	81	10	brazing	brazing	NN
work_ydypvtvejbby3ieiuc7quu6yge	81	11	process	process	NN
work_ydypvtvejbby3ieiuc7quu6yge	81	12	are	be	VBP
work_ydypvtvejbby3ieiuc7quu6yge	81	13	currently	currently	RB
work_ydypvtvejbby3ieiuc7quu6yge	81	14	Heat	Heat	NNP
work_ydypvtvejbby3ieiuc7quu6yge	81	15	-	-	HYPH
work_ydypvtvejbby3ieiuc7quu6yge	81	16	Treating	treat	VBG
work_ydypvtvejbby3ieiuc7quu6yge	81	17	parts	part	NNS
work_ydypvtvejbby3ieiuc7quu6yge	81	18	after	after	IN
work_ydypvtvejbby3ieiuc7quu6yge	81	19	they	-PRON-	PRP
work_ydypvtvejbby3ieiuc7quu6yge	81	20	have	have	VBP
work_ydypvtvejbby3ieiuc7quu6yge	81	21	been	be	VBN
work_ydypvtvejbby3ieiuc7quu6yge	81	22	brazed	braze	VBN
work_ydypvtvejbby3ieiuc7quu6yge	81	23	due	due	IN
work_ydypvtvejbby3ieiuc7quu6yge	81	24	to	to	IN
work_ydypvtvejbby3ieiuc7quu6yge	81	25	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	81	26	weakening	weakening	NN
work_ydypvtvejbby3ieiuc7quu6yge	81	27	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	81	28	the	the	DT
work_ydypvtvejbby3ieiuc7quu6yge	81	29	bond	bond	NN
work_ydypvtvejbby3ieiuc7quu6yge	81	30	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	82	1	Powder	Powder	NNP
work_ydypvtvejbby3ieiuc7quu6yge	82	2	714080	714080	CD
work_ydypvtvejbby3ieiuc7quu6yge	82	3	-	-	SYM
work_ydypvtvejbby3ieiuc7quu6yge	82	4	99	99	CD
work_ydypvtvejbby3ieiuc7quu6yge	82	5	RoHS	RoHS	NNP
work_ydypvtvejbby3ieiuc7quu6yge	82	6	Compliant	compliant	JJ
work_ydypvtvejbby3ieiuc7quu6yge	82	7	EXP6778	EXP6778	NNP
work_ydypvtvejbby3ieiuc7quu6yge	82	8	-	-	:
work_ydypvtvejbby3ieiuc7quu6yge	82	9	99	99	CD
work_ydypvtvejbby3ieiuc7quu6yge	82	10	1000101	1000101	CD
work_ydypvtvejbby3ieiuc7quu6yge	82	11	2643.4	2643.4	CD
work_ydypvtvejbby3ieiuc7quu6yge	82	12	5018.3	5018.3	CD
work_ydypvtvejbby3ieiuc7quu6yge	82	13	1000101HT	1000101ht	CD
work_ydypvtvejbby3ieiuc7quu6yge	82	14	2405.6	2405.6	CD
work_ydypvtvejbby3ieiuc7quu6yge	82	15	6230.5	6230.5	CD
work_ydypvtvejbby3ieiuc7quu6yge	82	16	1000111	1000111	CD
work_ydypvtvejbby3ieiuc7quu6yge	82	17	3998.5	3998.5	CD
work_ydypvtvejbby3ieiuc7quu6yge	82	18	7118.6	7118.6	CD
work_ydypvtvejbby3ieiuc7quu6yge	82	19	Shear	Shear	NNP
work_ydypvtvejbby3ieiuc7quu6yge	82	20	Strength	Strength	NNP
work_ydypvtvejbby3ieiuc7quu6yge	82	21	(	(	-LRB-
work_ydypvtvejbby3ieiuc7quu6yge	82	22	psi	psi	NNP
work_ydypvtvejbby3ieiuc7quu6yge	82	23	)	)	-RRB-
work_ydypvtvejbby3ieiuc7quu6yge	82	24	Summary	Summary	NNP
work_ydypvtvejbby3ieiuc7quu6yge	82	25	Reference	Reference	NNP
work_ydypvtvejbby3ieiuc7quu6yge	82	26	:	:	:
work_ydypvtvejbby3ieiuc7quu6yge	82	27	Burgess	Burgess	NNP
work_ydypvtvejbby3ieiuc7quu6yge	82	28	Norton	Norton	NNP
work_ydypvtvejbby3ieiuc7quu6yge	82	29	Mfg	Mfg	NNP
work_ydypvtvejbby3ieiuc7quu6yge	82	30	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	83	1	Co.	Co.	NNP
work_ydypvtvejbby3ieiuc7quu6yge	83	2	[	[	-LRB-
work_ydypvtvejbby3ieiuc7quu6yge	83	3	9	9	CD
work_ydypvtvejbby3ieiuc7quu6yge	83	4	]	]	-RRB-
work_ydypvtvejbby3ieiuc7quu6yge	83	5	References	reference	NNS
work_ydypvtvejbby3ieiuc7quu6yge	83	6	:	:	:
work_ydypvtvejbby3ieiuc7quu6yge	83	7	1	1	CD
work_ydypvtvejbby3ieiuc7quu6yge	83	8	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	84	1	Gabrielov	Gabrielov	NNP
work_ydypvtvejbby3ieiuc7quu6yge	84	2	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	84	3	C.	C.	NNP
work_ydypvtvejbby3ieiuc7quu6yge	84	4	Wilson	Wilson	NNP
work_ydypvtvejbby3ieiuc7quu6yge	84	5	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	84	6	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	84	7	J.	J.	NNP
work_ydypvtvejbby3ieiuc7quu6yge	84	8	Hamill	Hamill	NNP
work_ydypvtvejbby3ieiuc7quu6yge	84	9	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	84	10	“	"	``
work_ydypvtvejbby3ieiuc7quu6yge	84	11	Sinter	sinter	NN
work_ydypvtvejbby3ieiuc7quu6yge	84	12	-	-	HYPH
work_ydypvtvejbby3ieiuc7quu6yge	84	13	Brazing	Brazing	NNP
work_ydypvtvejbby3ieiuc7quu6yge	84	14	Automotive	Automotive	NNP
work_ydypvtvejbby3ieiuc7quu6yge	84	15	Powertrain	Powertrain	NNP
work_ydypvtvejbby3ieiuc7quu6yge	84	16	Components	Components	NNP
work_ydypvtvejbby3ieiuc7quu6yge	84	17	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	84	18	”	"	''
work_ydypvtvejbby3ieiuc7quu6yge	84	19	International	International	NNP
work_ydypvtvejbby3ieiuc7quu6yge	84	20	Journal	Journal	NNP
work_ydypvtvejbby3ieiuc7quu6yge	84	21	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	84	22	Powder	Powder	NNP
work_ydypvtvejbby3ieiuc7quu6yge	84	23	Metallurgy	Metallurgy	NNP
work_ydypvtvejbby3ieiuc7quu6yge	84	24	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	84	25	Vol	Vol	NNP
work_ydypvtvejbby3ieiuc7quu6yge	84	26	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	85	1	37	37	CD
work_ydypvtvejbby3ieiuc7quu6yge	85	2	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	85	3	7	7	CD
work_ydypvtvejbby3ieiuc7quu6yge	85	4	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	85	5	2001	2001	CD
work_ydypvtvejbby3ieiuc7quu6yge	85	6	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	85	7	pp	pp	NNP
work_ydypvtvejbby3ieiuc7quu6yge	85	8	46	46	CD
work_ydypvtvejbby3ieiuc7quu6yge	85	9	-	-	SYM
work_ydypvtvejbby3ieiuc7quu6yge	85	10	48	48	CD
work_ydypvtvejbby3ieiuc7quu6yge	85	11	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	86	1	2	2	LS
work_ydypvtvejbby3ieiuc7quu6yge	86	2	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	87	1	M.	M.	NNP
work_ydypvtvejbby3ieiuc7quu6yge	87	2	Frank	Frank	NNP
work_ydypvtvejbby3ieiuc7quu6yge	87	3	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	87	4	“	"	``
work_ydypvtvejbby3ieiuc7quu6yge	87	5	Advanced	Advanced	NNP
work_ydypvtvejbby3ieiuc7quu6yge	87	6	Sinter	Sinter	NNP
work_ydypvtvejbby3ieiuc7quu6yge	87	7	brazed	braze	VBD
work_ydypvtvejbby3ieiuc7quu6yge	87	8	P	p	NN
work_ydypvtvejbby3ieiuc7quu6yge	87	9	/	/	SYM
work_ydypvtvejbby3ieiuc7quu6yge	87	10	M	M	NNP
work_ydypvtvejbby3ieiuc7quu6yge	87	11	Subassemblies	Subassemblies	NNP
work_ydypvtvejbby3ieiuc7quu6yge	87	12	in	in	IN
work_ydypvtvejbby3ieiuc7quu6yge	87	13	Torque	Torque	NNP
work_ydypvtvejbby3ieiuc7quu6yge	87	14	Transfer	Transfer	NNP
work_ydypvtvejbby3ieiuc7quu6yge	87	15	Systems	Systems	NNPS
work_ydypvtvejbby3ieiuc7quu6yge	87	16	:	:	:
work_ydypvtvejbby3ieiuc7quu6yge	87	17	Reduction	reduction	NN
work_ydypvtvejbby3ieiuc7quu6yge	87	18	Hubs	hub	NNS
work_ydypvtvejbby3ieiuc7quu6yge	87	19	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	87	20	Carriers	Carriers	NNPS
work_ydypvtvejbby3ieiuc7quu6yge	87	21	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	87	22	”	"	''
work_ydypvtvejbby3ieiuc7quu6yge	87	23	SAE	SAE	NNP
work_ydypvtvejbby3ieiuc7quu6yge	87	24	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	87	25	2002	2002	CD
work_ydypvtvejbby3ieiuc7quu6yge	87	26	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	88	1	3	3	LS
work_ydypvtvejbby3ieiuc7quu6yge	88	2	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	89	1	M.	M.	NNP
work_ydypvtvejbby3ieiuc7quu6yge	89	2	Onoda	Onoda	NNP
work_ydypvtvejbby3ieiuc7quu6yge	89	3	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	89	4	R.	R.	NNP
work_ydypvtvejbby3ieiuc7quu6yge	89	5	Kameda	Kameda	NNP
work_ydypvtvejbby3ieiuc7quu6yge	89	6	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	89	7	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	89	8	T.	T.	NNP
work_ydypvtvejbby3ieiuc7quu6yge	89	9	Koiso	Koiso	NNP
work_ydypvtvejbby3ieiuc7quu6yge	89	10	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	89	11	“	"	``
work_ydypvtvejbby3ieiuc7quu6yge	89	12	Application	Application	NNP
work_ydypvtvejbby3ieiuc7quu6yge	89	13	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	89	14	Sinter	Sinter	NNP
work_ydypvtvejbby3ieiuc7quu6yge	89	15	-	-	HYPH
work_ydypvtvejbby3ieiuc7quu6yge	89	16	Brazing	Brazing	NNP
work_ydypvtvejbby3ieiuc7quu6yge	89	17	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	89	18	”	"	''
work_ydypvtvejbby3ieiuc7quu6yge	89	19	Metal	Metal	NNP
work_ydypvtvejbby3ieiuc7quu6yge	89	20	Powder	Powder	NNP
work_ydypvtvejbby3ieiuc7quu6yge	89	21	Report	Report	NNP
work_ydypvtvejbby3ieiuc7quu6yge	89	22	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	89	23	November	November	NNP
work_ydypvtvejbby3ieiuc7quu6yge	89	24	1983	1983	CD
work_ydypvtvejbby3ieiuc7quu6yge	89	25	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	89	26	pp	pp	NNP
work_ydypvtvejbby3ieiuc7quu6yge	89	27	632	632	CD
work_ydypvtvejbby3ieiuc7quu6yge	89	28	–	–	:
work_ydypvtvejbby3ieiuc7quu6yge	89	29	634	634	CD
work_ydypvtvejbby3ieiuc7quu6yge	89	30	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	90	1	4	4	LS
work_ydypvtvejbby3ieiuc7quu6yge	90	2	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	91	1	P.	P.	NNP
work_ydypvtvejbby3ieiuc7quu6yge	91	2	Beiss	Beiss	NNP
work_ydypvtvejbby3ieiuc7quu6yge	91	3	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	91	4	“	"	``
work_ydypvtvejbby3ieiuc7quu6yge	91	5	Finishing	finish	VBG
work_ydypvtvejbby3ieiuc7quu6yge	91	6	processes	process	NNS
work_ydypvtvejbby3ieiuc7quu6yge	91	7	in	in	IN
work_ydypvtvejbby3ieiuc7quu6yge	91	8	powder	powder	NN
work_ydypvtvejbby3ieiuc7quu6yge	91	9	metallurgy	metallurgy	NN
work_ydypvtvejbby3ieiuc7quu6yge	91	10	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	91	11	”	"	''
work_ydypvtvejbby3ieiuc7quu6yge	91	12	Powder	Powder	NNP
work_ydypvtvejbby3ieiuc7quu6yge	91	13	Metallurgy	Metallurgy	NNP
work_ydypvtvejbby3ieiuc7quu6yge	91	14	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	91	15	1989	1989	CD
work_ydypvtvejbby3ieiuc7quu6yge	91	16	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	91	17	32	32	CD
work_ydypvtvejbby3ieiuc7quu6yge	91	18	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	91	19	4	4	CD
work_ydypvtvejbby3ieiuc7quu6yge	91	20	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	91	21	pp	pp	NNP
work_ydypvtvejbby3ieiuc7quu6yge	91	22	277	277	CD
work_ydypvtvejbby3ieiuc7quu6yge	91	23	-	-	SYM
work_ydypvtvejbby3ieiuc7quu6yge	91	24	284	284	CD
work_ydypvtvejbby3ieiuc7quu6yge	91	25	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	92	1	5	5	CD
work_ydypvtvejbby3ieiuc7quu6yge	92	2	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	93	1	M.	M.	NNP
work_ydypvtvejbby3ieiuc7quu6yge	93	2	Stromgren	Stromgren	NNP
work_ydypvtvejbby3ieiuc7quu6yge	93	3	and	and	CC
work_ydypvtvejbby3ieiuc7quu6yge	93	4	O.	O.	NNP
work_ydypvtvejbby3ieiuc7quu6yge	93	5	Andersson	Andersson	NNP
work_ydypvtvejbby3ieiuc7quu6yge	93	6	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	93	7	“	"	``
work_ydypvtvejbby3ieiuc7quu6yge	93	8	Brazing	brazing	NN
work_ydypvtvejbby3ieiuc7quu6yge	93	9	of	of	IN
work_ydypvtvejbby3ieiuc7quu6yge	93	10	P	p	NN
work_ydypvtvejbby3ieiuc7quu6yge	93	11	/	/	SYM
work_ydypvtvejbby3ieiuc7quu6yge	93	12	M	M	NNP
work_ydypvtvejbby3ieiuc7quu6yge	93	13	Parts	part	NNS
work_ydypvtvejbby3ieiuc7quu6yge	93	14	by	by	IN
work_ydypvtvejbby3ieiuc7quu6yge	93	15	Sintering	sinter	VBG
work_ydypvtvejbby3ieiuc7quu6yge	93	16	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	93	17	”	"	''
work_ydypvtvejbby3ieiuc7quu6yge	93	18	Technical	Technical	NNP
work_ydypvtvejbby3ieiuc7quu6yge	93	19	Report	Report	NNP
work_ydypvtvejbby3ieiuc7quu6yge	93	20	-	-	HYPH
work_ydypvtvejbby3ieiuc7quu6yge	93	21	PM	PM	NNP
work_ydypvtvejbby3ieiuc7quu6yge	93	22	89	89	CD
work_ydypvtvejbby3ieiuc7quu6yge	93	23	-	-	SYM
work_ydypvtvejbby3ieiuc7quu6yge	93	24	6	6	CD
work_ydypvtvejbby3ieiuc7quu6yge	93	25	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	94	1	6	6	CD
work_ydypvtvejbby3ieiuc7quu6yge	94	2	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	95	1	W.	W.	NNP
work_ydypvtvejbby3ieiuc7quu6yge	95	2	Knopp	Knopp	NNP
work_ydypvtvejbby3ieiuc7quu6yge	95	3	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	95	4	Brazing	Brazing	NNP
work_ydypvtvejbby3ieiuc7quu6yge	95	5	Alloy	Alloy	NNP
work_ydypvtvejbby3ieiuc7quu6yge	95	6	Composition	Composition	NNP
work_ydypvtvejbby3ieiuc7quu6yge	95	7	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	95	8	United	United	NNP
work_ydypvtvejbby3ieiuc7quu6yge	95	9	States	States	NNP
work_ydypvtvejbby3ieiuc7quu6yge	95	10	Patent	Patent	NNP
work_ydypvtvejbby3ieiuc7quu6yge	95	11	3,717,442	3,717,442	CD
work_ydypvtvejbby3ieiuc7quu6yge	95	12	Feb.	February	NNP
work_ydypvtvejbby3ieiuc7quu6yge	95	13	20	20	CD
work_ydypvtvejbby3ieiuc7quu6yge	95	14	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	95	15	1973	1973	CD
work_ydypvtvejbby3ieiuc7quu6yge	95	16	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	96	1	7	7	LS
work_ydypvtvejbby3ieiuc7quu6yge	96	2	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	97	1	R.	R.	NNP
work_ydypvtvejbby3ieiuc7quu6yge	97	2	Peaslee	Peaslee	NNP
work_ydypvtvejbby3ieiuc7quu6yge	97	3	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	97	4	“	"	``
work_ydypvtvejbby3ieiuc7quu6yge	97	5	How	how	WRB
work_ydypvtvejbby3ieiuc7quu6yge	97	6	to	to	TO
work_ydypvtvejbby3ieiuc7quu6yge	97	7	Identify	identify	VB
work_ydypvtvejbby3ieiuc7quu6yge	97	8	Brazing	Brazing	NNP
work_ydypvtvejbby3ieiuc7quu6yge	97	9	Failures	failure	NNS
work_ydypvtvejbby3ieiuc7quu6yge	97	10	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	97	11	”	"	''
work_ydypvtvejbby3ieiuc7quu6yge	97	12	Advanced	Advanced	NNP
work_ydypvtvejbby3ieiuc7quu6yge	97	13	Materials	Materials	NNPS
work_ydypvtvejbby3ieiuc7quu6yge	97	14	&	&	CC
work_ydypvtvejbby3ieiuc7quu6yge	97	15	Processes	Processes	NNP
work_ydypvtvejbby3ieiuc7quu6yge	97	16	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	97	17	December	December	NNP
work_ydypvtvejbby3ieiuc7quu6yge	97	18	2003	2003	CD
work_ydypvtvejbby3ieiuc7quu6yge	97	19	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	97	20	p	p	NNP
work_ydypvtvejbby3ieiuc7quu6yge	97	21	35	35	CD
work_ydypvtvejbby3ieiuc7quu6yge	97	22	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	98	1	8	8	LS
work_ydypvtvejbby3ieiuc7quu6yge	98	2	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	99	1	AWS	AWS	NNP
work_ydypvtvejbby3ieiuc7quu6yge	99	2	Committee	Committee	NNP
work_ydypvtvejbby3ieiuc7quu6yge	99	3	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	99	4	Brazing	Brazing	NNP
work_ydypvtvejbby3ieiuc7quu6yge	99	5	Manual	Manual	NNP
work_ydypvtvejbby3ieiuc7quu6yge	99	6	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	99	7	1963	1963	CD
work_ydypvtvejbby3ieiuc7quu6yge	99	8	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	99	9	American	American	NNP
work_ydypvtvejbby3ieiuc7quu6yge	99	10	Welding	Welding	NNP
work_ydypvtvejbby3ieiuc7quu6yge	99	11	Society	Society	NNP
work_ydypvtvejbby3ieiuc7quu6yge	99	12	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	99	13	New	New	NNP
work_ydypvtvejbby3ieiuc7quu6yge	99	14	York	York	NNP
work_ydypvtvejbby3ieiuc7quu6yge	99	15	,	,	,
work_ydypvtvejbby3ieiuc7quu6yge	99	16	NY	NY	NNP
work_ydypvtvejbby3ieiuc7quu6yge	99	17	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	100	1	9	9	CD
work_ydypvtvejbby3ieiuc7quu6yge	100	2	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	101	1	Burgess	Burgess	NNP
work_ydypvtvejbby3ieiuc7quu6yge	101	2	Norton	Norton	NNP
work_ydypvtvejbby3ieiuc7quu6yge	101	3	Mfg	Mfg	NNP
work_ydypvtvejbby3ieiuc7quu6yge	101	4	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	102	1	Co.	Co.	NNP
work_ydypvtvejbby3ieiuc7quu6yge	102	2	10	10	CD
work_ydypvtvejbby3ieiuc7quu6yge	102	3	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	102	4	https://www.ssisintered.com/materials/low-alloy-molybdenum-nickel-steels	https://www.ssisintered.com/materials/low-alloy-molybdenum-nickel-steels	NNP
work_ydypvtvejbby3ieiuc7quu6yge	102	5	.	.	.
work_ydypvtvejbby3ieiuc7quu6yge	103	1	https://www.ssisintered.com/materials/low-alloy-molybdenum-nickel-steels	https://www.ssisintered.com/materials/low-alloy-molybdenum-nickel-steels	NNP