摘要
通过开发一种羊绒包芯纱来探寻解决羊绒织物耐穿性差、易起静电等问题的方法。以导电丝为芯丝,羊绒为外包纤维,在棉纺设备上纺制羊绒包芯纱。阐述了纱线的开发过程和工艺措施。测试包芯纱及其织物的拉伸、顶破、静电等性能,并与同规格纯羊绒纱线及其织物的性能进行对比。结果表明:羊绒包芯纱强力提高1.45倍,其织物顶破强力提高1.7倍,最大摩擦静电压降低86.5%,单位面积起球个数减少16.2%。显然,采用包芯纱结构可以改善羊绒织物的耐穿性、抗静电性和抗起球性。
This paper is intended to develope cashmere core spun yarn, expecting to explore the way solving problems of poor wearproof and easy to be electrostatic of cashmere fabrics. Conductive filaments are prepared as core filaments and cashmere fiber is covered outside, cashmere core spun yarn is produced by ring-spinning frame. The core spun yarn and its fabrics are subjected to the test of tensile strength, bursting strength and static-electricity. Thereafter, their properties are compared with those of pure cashmere yarn and fabrics with the same specification. The result indicates that the tensile strength of cashmere core spun yarn increases 1.45 times, the bursting strength of its fabrics increases 1.7 times, the maximum friction electrostatic voltage decreases by 86.5% and the number of pilling per unit of area decreases by 16.2%. It is obvious that the structure of core spun yarn can enhance the properties of wearproof, antistatic and anti-pilling.
出处
《毛纺科技》
CAS
北大核心
2014年第8期9-12,共4页
Wool Textile Journal
关键词
包芯纱
羊绒
导电丝
强力
抗静电
起毛起球
core spun yarn
cashmere
conductive filament
strength
antistatic
pilling