期刊文献+

PTT/PET自卷曲长丝的拉伸和弹性回复性能 被引量:9

Stretching and Elastic Recovery of PTT/PET Self-crimping Filament
下载PDF
导出
摘要 对相同细度的3种聚对苯二甲酸丙二醇酯(PTT)/聚对苯二甲酸乙二醇酯(PET)自卷曲长丝进行拉伸性能和定伸长回复性能测试。测试结果表明:PTT/PET自卷曲长丝拉伸曲线具有典型的两个阶段和两个屈服点的特征,预加张力的大小对于伸长率的测试结果影响很大;卷曲伸长对该类长丝较高的伸长率有较大贡献,经过湿热处理后的长丝卷曲伸长和断裂伸长明显增加,但是不同的PTT/PET自卷曲长丝的伸长能力有一定差异;PTT/PET自卷曲长丝的弹性回复性能低于纯PTT长丝,而高于PET长丝,弹性回复性主要来源于具有优异弹性回复性的PTT大分子链结构;热处理的PTT/PET长丝在高定伸长率下有着较好的弹性回复性,在定长为30%时的弹性回复率接近100%。 Stretching and elastic recovery properties based on elongation of three kinds of PTT (Polytrimethylene terephthalate)/PET (Polyethylene terephthalate) self-crimping filaments with same linear density were tested. The testing results showed that there were typical two steps and two yield points in the force-elongation curve of PTT/PET filaments. It was noted that the pretension used in the testing greatly influenced the value of elongation of these filaments. The crimp elongation enormously contributed to the high elongation of PTT/PET filament, especially for the wet-heat treated filaments. Both the crimp and breaking elongations of the treated filaments rose significantly, however, the elongation abilities were different among the three filaments. The elastic recovery of original PTT/PET, which resulted from helical conformation of PTT molecular chain, laid between in that of pure PTT and pure PET filaments. Relative to original filaments, the wet-heat treated filaments owned much excellent elastic recovery based on elongation, which was as high as 100 % in 30 % elongation and arose from the helical crimp configuration.
出处 《合成纤维》 CAS 2009年第5期15-19,共5页 Synthetic Fiber in China
关键词 FFF/PET自卷曲长丝 卷曲仲长 拉伸曲线 预加张力 弹性回复率 PTT/PET self-crimping filament, crimp elongation, stretching curve, pre-tension, elastic recovery
  • 相关文献

参考文献8

  • 1Final report administrative arrangement N. 2003-21200. Fiber labeling Elastomuhiester-DuPont
  • 2HUVIS.聚酯类纤维拥有优越的潜卷曲性及其生产方式:韩国,KR20040092605[P].2004-11-04
  • 3Bedla E L, Murakaml S, Kitade T, Kohjiya, S. Strncture development and mechanical properties of polyethylene naphthalate/polyethylene terephthalate blends during uniaxial drawing [J]. Polymer, 2001, 42: 7 299-7 305.
  • 4Tae H O. Effects of spinning and drawing conditions on the crimp Contraction of Side-by-Side Poly (trimethylene terephthalate) Bi -component Fibers [J]. Journal of Applied Polymer Science, 2006, 102(2):1 322-1 327.
  • 5刘晶.聚酯类纤维性能研究及其产品开发[J].上海:东华大学纺织学院,2007.
  • 6刘晶,王府梅,肖红,施楣梧.热处理条件对PET/PTT双组分复合长丝力学性能的影响[J].合成纤维,2008,37(2):22-26. 被引量:11
  • 7陈克权.加工方式对PTT长丝结构与性能的影响[J].金山油化纤,2006,25(1):1-7. 被引量:4
  • 8杨美城,尹素华.变形丝生产[M].北京:纺织工业出版社,1987:218-227.

二级参考文献7

共引文献13

同被引文献42

  • 1孙宏,来侃,孙润军.PET/PTT复合纤维工艺性能研究[J].西安工程科技学院学报,2006,20(6):706-709. 被引量:15
  • 2刘晶.聚酯类纤维性能研究及其产品开发[D].上海:东华大学纺织学院,2007.
  • 3HORIO M, KONDO T. Crimping of Wool Fibers [ J ]. Textile Research Journal, 1953, 23(6) : 373 - 386.
  • 4TIMOSHENKO S S. Analysis of Bi-metal Thermostats [J]. Journal of Optical Society of America, 1925, 11:233 - 255.
  • 5BROWN T D, ONIONS W J. A Theory for the Development of Wool Fiber Crimp on Drying [J]. Journal of Textile Institute, 1961, 52: 101-108.
  • 6BRAND R H, BACKER S. Mechanical Principles of Natural Crimp of Fiber [J]. Textile Research Journal, 1962, 32(1) : 39 - 49.
  • 7EL-SHIEKH A, BOGDAN J F, GUPTA R K. The Mechanics of Bi-component Fibers [ J ]. Textile Research Journal, 1971, 41(4): 281-297.
  • 8GUPTA B S, GEROGE W. A Theory of Self-Crimping Bieomponent Filaments [ J ]. Texlile Research Journal, 1975, 45(4): 338-349.
  • 9DENTON M J. The Crimp Curvature of Bi-component Fibers [J]. Journal of Textile Institute, 1982, 73(6) : 253 - 263.
  • 10RWEI S P, LIN Y T, SU Y Y. Study of Self-Crimp Polyester Fibers [J ]. Polymer Engineering and Science, 2005, 45(6): 838-845.

引证文献9

二级引证文献13

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部