LiCl改性聚酰胺6纤维的制备与性能Preparation and Performance of LiCl Modified Polyamide 6 Fiber
周凤娟,王依民,王燕萍,倪建华,夏于旻
ZHOU Feng-juan,WANG Yi-min,WANG Yan-pin,NI Jian-hua,XIA Yu-min
摘要(Abstract):
通过高速共混包覆法和熔融纺丝法制备出聚酰胺6(PA6)-LiCl共混复合纤维,研究了不同含量的LiCl对PA6纤维的结构和性能的影响。差示扫描量热分析、傅里叶变换红外光谱分析、热重分析、纤度及力学性能测试等的结果表明:LiCl中Li+能打开PA6的氢键,并与酰胺基团产生比氢键作用力更强的络合作用,降低了PA6分子链的规整性,从而有利于纤维的热牵伸,在降低纤度的同时提高力学性能。当LiCl质量分数为0.5%时,PA6-LiCl共混纤维的可拉伸倍数最高可至4.8倍,断裂强度为5.3 cN/dtex,断裂伸长率为5.8%,较未加LiCl的样品的断裂强度提高了112%,断裂伸长率降低了74.6%,综合力学性能最佳。
The polyamide(PA)6-LiCl composite fibers were prepared by high-speed blending coated method and then melt spinning.The effects of LiCl with different contents on the structure and properties of PA6were studied.The experimental results of DSC,TG,FTIR and mechanical properties test showed that complexation was formed between Li+and PA6,the original hydrogen bond of PA6 was destroyed,consequently the irregularity of molecular chains of PA6 was reduced,which benefited the drawing and improved fiber mechanical properties.When the mass fraction of LiC1 was 0.5 %,the draw ratio went up to 4.8 times,breaking strength was 5.3 cN/dtex,elongation at break was 5.8 %.Compared to the pure PA6fiber,breaking strength increased by 112 %,elongation at break decreased by 74.6 %,the mechnical properties of PA6-LiCl composite fiber were optimum.
关键词(KeyWords):
聚酰胺6;LiCl;络合作用;氢键;力学性能
polyamide 6,LiCl,complexing,hydrogen bond,mechanical property
基金项目(Foundation):
作者(Author):
周凤娟,王依民,王燕萍,倪建华,夏于旻
ZHOU Feng-juan,WANG Yi-min,WANG Yan-pin,NI Jian-hua,XIA Yu-min
DOI: 10.16090/j.cnki.hcxw.2013.12.008
参考文献(References):
- [1]刘志伟,蔡芳昌,廖合兴,等.尼龙6/PP-g-马来酸酐共混物及其熔纺初生纤维性能研究[J].合成纤维,2011,40(2):32-35.
- [2]宗源,张青红,顾利琴,等.纳米复合金属氧化物/聚酰胺6复合纤维的制备及性能[J].合成纤维,2013,42(3):1-7.
- [3]王庆文,杨玉恒,高鸿宾.有机化学中的氢键问题[M].天津大学出版社,1993:7-13.
- [4]何曼君,陈维孝,董西侠.高分子物理[M].上海:复旦大学出版社,2002:86.
- [5]E Bianchi,A Cifferri,A Tealdi and B.Bulk properties of synthetic Polymer-Inorganic salt systems.II.Crystallization kinetics of salted poly(caproamide)[J].Valenti Macromolecules,1974,7(4):495.
- [6]Acthara Lahor,Manit Nithitaakul,Brian P Grady.Blends of lowdensity polyethylene with nylon compatibilized with a sodium-neutralized carboxylate ionomer[J].Europe Polymer Journal,40(11):2 409-2 420.
- [7]鲁圣军,李飞,于杰,等.PA6/LiC1复合材料结构分析与性能研究[J].工程塑料应用,2011,39(9):71-74.
- [8]Yizhuang Xu,Yanjie,Weihong Wu,et al.Investigation on the interaction between polyamide and Lithium salts[J].Journal of Applied Polymer Seience,2000,77:2 685.
- [9]Acierno D,lannantia F P,Polizretti G,et a1.Bulk properties of synthetic polymer-inorganic salt systems and mechanical properties of oriented poly(caproamide)[J].Polymer Science Symposium,1979,17(11):1 903-1 012.
- [10]蒋鹏,罗红梅.牵伸定型工艺对FDY结构性能的影响[J].合成技术及应用,2007,22(1):54-57.
- [11]何平笙.新编高聚物的结构与性能[M].北京:科学出版社,2009:139-150.