原色与脱色牦牛绒精梳纯纺纱工艺研究

doi:10.13475/j.fzxb.20200606407

纺织学报 ›› 2021, Vol. 42 ›› Issue (06): 78-84.doi: 10.13475/j.fzxb.20200606407

原色与脱色牦牛绒精梳纯纺纱工艺研究

秦潇璇¹^,²(), 瞿立新³, 谢春萍²

1. 无锡城市职业技术学院影视学院, 江苏无锡 214000
2. 江南大学纺织科学与工程学院,江苏无锡 214122
3. 无锡科技职业学院, 江苏无锡 214028

收稿日期:2020-06-23 修回日期:2021-03-03 出版日期:2021-06-15 发布日期:2021-06-28
作者简介:秦潇璇(1981—),女,副教授,硕士。主要研究方向为新型纺纱技术与服装加工设计。E-mail: 21506210@qq.com。
基金资助:
江苏省教育科学“十三五”规划重点资助课题(B-a/2018/03/12);江苏省高校哲学社会科学研究基金项目(2018SJA0890);江苏省高校哲学社会科学研究基金项目(2020SJDA138)

Process design of combed yarn from original and discolored yak hair

QIN Xiaoxuan¹^,²(), QU Lixin³, XIE Chunping²

1. Institute of Film and Television, Wuxi City College of Vocational Technology, Wuxi, Jiangsu 214000, China
2. College of Textile Science and Engineering, Jiangnan University, Wuxi, Jiangsu 214122, China
3. Wuxi Vocational College of Science and Technology, Wuxi, Jiangsu 214028, China

Received:2020-06-23 Revised:2021-03-03 Published:2021-06-15 Online:2021-06-28

摘要/Abstract

摘要：

针对牦牛绒纤维主体长度短、长度离散度大、含有大量粗死毛等导致无法使用现有毛精纺设备实现精梳制条的问题,通过采用便捷喂毛、高效预梳、低损伤分梳、落物充分回收装置组成高效分梳机构,将卷曲、块状绒团拉伸为基本伸直的单纤维状。在细纱工序,分别采用环锭纺、网格圈紧密纺、全聚纺纺制原色和脱色牦牛绒单纱和赛络纱,并对成纱质量进行测试分析。结果表明:16.7 tex牦牛绒纯纺纱采用环锭纺时由于断头多而导致无法正常纺纱;与网格圈紧密纺相比,全聚纺所纺原色牦牛绒纱的强伸性和条干有所改善,但毛羽质量略差;与原色牦牛绒相比,脱色牦牛绒纯纺纱的综合性能有所下降,尤其是成纱强力有所降低;与网格圈型紧密纺相比,全聚纺由于实现了对牵伸后的纤维须条的平行集聚,更有利于对脱色后强力较低的牦牛绒纤维实现更加柔性、平稳的集聚加工。

关键词: 牦牛绒, 精准分离, 紧密纺, 分梳, 精梳纱

Abstract:

At present, yak hair fiber is difficult for yarn spinning especially for pure combed yarn spinning due to its features, including short length, and large variation in fiber length. There is also lots of coarse wool in the yak cashmere, which makes it impossible for the combed slivers of the yak hair to be produced in the wool worsted equipments. This paper introduced an efficient carding system, including a convenient fiber feeding device, an efficient preparing device, a low damage carding device, and a full dropping-recovery device. By using the system, the crimp and lumpy hair was stretched into straight individual fibers. In creating the yarns, the ring spinning, lattice apron compact spinning, and roller-type compact spinning were used form the original and discolored yak hair combed single yarns and siro spun yarns, and the qualities of spun yarns were measured and analyzed for comparison. The results show that the ring spinning method cannot be used for 16.7 tex spun yarn due to high yarn breakage. Comparing with quality of yarn produced using lattice apron compact spinning, the strength and elongation, and evenness of the original yak hair yarn spun created using roller-type compact spinning are improved, but with higher rate of hairiness. Comparing with the original yak hair yarn, the discolored yak hair yarn demonstrates lower comprehensive properties, especially the yarn strength. Comparing with lattice apron compact spinning, the roller-type compact spinning is more suitable for discolored yak hair yarn spinning due to the flexible and stable parallel condensing process.

Key words: yak hair, accurate separation, compact spinning, carding, combed yarn

中图分类号:

TS101

秦潇璇, 瞿立新, 谢春萍. 原色与脱色牦牛绒精梳纯纺纱工艺研究[J]. 纺织学报, 2021, 42(06): 78-84.

QIN Xiaoxuan, QU Lixin, XIE Chunping. Process design of combed yarn from original and discolored yak hair[J]. Journal of Textile Research, 2021, 42(06): 78-84.

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参考文献 10

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原料	和毛加油量/%	抗静电剂加入量/%	回潮率/%	焖放时间/h
原色	0.4~0.5	0.13~0.16	20~22	12~24
脱色	0.5~0.6	0.15~0.25	20~22	12~24

线密度/tex	粗纱定量/(g·(10 m)^-1)	捻度/(捻·(10 m)^-1)	钢领型号	钢丝圈	隔距块	锭速/(r·min^-1)
25	4	698.4	PG1-4254	3/0	3.0	10 000
16.7	3.7	859.6	PG1-3854	12/0	2.8	8 500

线密度/tex	粗纱定量/(g·(10 m)^-1)	捻度/(捻·(10 m)^-1)	钢领型号	钢丝圈	隔距块	锭速/(r·min^-1)
25	4	732.6	PG1-4254	3/0	3.0	9 000
16.7	3.7	903.4	PG1-3854	12/0	2.8	7 900

纺纱形式		纱线原料	强力/cN	伸长率/%	条干 CV值/%	细节-50%/ (个·km^-1)	粗节+50%/ (个·km^-1)	毛粒+200%/ (个·km^-1)
单纱	环锭纺	棕牦牛绒	92.1	5.10	15.56	36	60	15
	环锭纺	青牦牛绒	95.6	5.46	15.44	29	58	20
	紧密纺	棕牦牛绒	103.3	5.21	15.38	25	50	10
	紧密纺	青牦牛绒	115.7	5.47	15.13	15	30	15
	全聚纺	棕牦牛绒	108.6	5.82	14.99	20	30	50
	全聚纺	青牦牛绒	116.2	6.03	14.82	10	15	10
赛络纱	环锭纺	棕牦牛绒	96.7	5.35	15.33	22	45	15
	环锭纺	青牦牛绒	108.1	5.40	15.06	18	40	13
	紧密纺	棕牦牛绒	107.4	5.32	15.13	20	40	10
	紧密纺	青牦牛绒	120.3	5.24	14.88	10	20	10
	全聚纺	棕牦牛绒	112.9	5.95	14.74	10	30	25
	全聚纺	青牦牛绒	121.8	6.11	14.57	5	10	10

纺纱形式		纱线原料		毛羽数/(根·(100 m)^-1)
纺纱形式		纱线原料		1 mm		2 mm	3 mm		4 mm		6 mm		8 mm	10 mm
单纱	环锭纺	棕牦牛绒	11 857		5 731			2 853		2 223		981		486	174
	环锭纺	青牦牛绒	11 230		5 484			2 623		2 047		887		456	158
	紧密纺	棕牦牛绒	8 893		3 302			1 445		859		267		83	37
	紧密纺	青牦牛绒	8 326		2 763			1 275		815		139		33	10
	全聚纺	棕牦牛绒	9 029		3 761			1 449		843		238		67	26
	全聚纺	青牦牛绒	8 764		2 559			1 247		853		142		19	5
赛络纱	环锭纺	棕牦牛绒	9 842		4 580			2 036		1 283		493		301	75
	环锭纺	青牦牛绒	9 736		4 219			1 947		1 064		465		268	66
	紧密纺	棕牦牛绒	8 448		3 137			1 373		816		254		78	34
	紧密纺	青牦牛绒	7 960		2 569			1 211		774		132		31	9
	全聚纺	棕牦牛绒	8 577		3 572			1 376		799		226		63	24
	全聚纺	青牦牛绒	8 321		2 431			1 209		811		134		18	5

原色与脱色牦牛绒精梳纯纺纱工艺研究

Process design of combed yarn from original and discolored yak hair

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纺纱形式		强力/cN	伸长率/%	条干 CV值/%	细节(-50)%/ (个·km^-1)	粗节(+50%)/ (个·km^-1)	毛粒(+200%)/ (个·km^-1)
单纱	环锭纺	95.4	4.6	16.72	30	65	83
	紧密纺	106.9	4.7	16.53	25	50	70
	全聚纺	113.3	4.3	15.88	23	30	50
赛络纱	环锭纺	101.5	4.7	16.02	25	58	52
	紧密纺	112.7	4.5	16.17	30	60	43
	全聚纺	119.8	4.8	15.38	23	30	28

纺纱形式		强力/cN	伸长率/%	条干CV值/%	细节-50%/ (个·km^-1)	粗节+50%/ (个·km^-1)	毛粒+200%/ (个·km^-1)
单纱	紧密纺	66.06	3.92	18.21	220	260	260
单纱	全聚纺	65.89	4.03	17.93	200	160	150
赛络纱	紧密纺	70.83	4.95	18.03	135	145	290
赛络纱	全聚纺	70.02	4.98	17.55	320	120	100

纺纱形式			毛羽数/(根·(100 m)^-1)
纺纱形式			1 mm		2 mm		3 mm		4 mm		6 mm		8 mm	10 mm
单纱	环锭纺	15 364		6 305		3 941		2 964		1 483		583		190
	紧密纺	11 970		4 921		2 185		1 168		356		123		57
	全聚纺	13 058		4 312		2 294		1 127		378		119		62
赛络纱	环锭纺	13 367		5 359		2 876		1 881		921		296		82
	紧密纺	11 213		4 673		2 084		1 108		316		97		39
	全聚纺	12 350		4 093		2 178		1 069		323		91		41

纺纱形式			毛羽数/(根·(100 m)^-1)
纺纱形式			1 mm		2 mm		3 mm		4 mm		6 mm		8 mm	10 mm
单纱	紧密纺	9 558		3 106		1 173		932		276		40		23
单纱	全聚纺	10 273		3 389		1 185		967		259		37		21
赛络纱	紧密纺	9 081		2 949		1 116		819		234		36		18
赛络纱	全聚纺	9 758		3 218		1 124		823		221		39		19