生物基共聚酯纤维的抗静电性能Study on Antistatic Properties of Bio-Based Polyester Fibers
刘红飞,王欢,吉鹏,史原,王朝生,王华平
LIU Hong-fei,WANG Huan,JI Peng,SHI Yuan,WANG Chao-sheng,WANG Hua-ping
摘要(Abstract):
以对苯二甲酸和生物基乙二醇为原料,聚乙二醇(PEG)为第三单体,纳米氧化锌(Zn O)为抗静电添加剂,制备抗静电生物基共聚酯,并纺制抗静电生物基共聚酯纤维。通过特性黏度、热学性能、表面接触角和体积比电阻值分析PEG和纳米Zn O的添加量对生物基共聚酯切片与纤维热学性能、亲水性能及抗静电性能的影响。试验结果发现:当PEG及纳米Zn O添加量分别为摩尔分数0.2%及1.6%时,改性生物基共聚酯纤维的热学性能最稳定,抗静电性能在所研究范围内最优。
In this article, antistatic bio-based polyesters were prepared with the polymerization of tere-phthalic acid and bio-based glycol, polyethylene glycol(PEG) as the third monomer, the nano zinc oxide(ZnO) as the antistatic addition agent. The influence of the additive amount of PEG and Zn O on the proper-ties of antistatic bio-based polyester fibers were studied by intrinsic viscosity, differential scanning calorim-etry(DSC), contact angle measurements and volume resistivity test. The additive amount of PEG and ZnO has not obvious effect on the thermal property of antistatic bio-based polyester fibers. The fibers with addi-tion of 0.2 % PEG and 1.6 % ZnO have the better antistatic property within the scope of this study.
关键词(KeyWords):
生物基乙二醇;抗静电;共聚酯
bio-based polyester,antistatic property,copolyester
基金项目(Foundation):
作者(Author):
刘红飞,王欢,吉鹏,史原,王朝生,王华平
LIU Hong-fei,WANG Huan,JI Peng,SHI Yuan,WANG Chao-sheng,WANG Hua-ping
DOI: 10.16090/j.cnki.hcxw.2014.11.002
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