Chemical Industry and Engineering Progree

• 材料科学与技术 • Previous Articles     Next Articles

Effect of antioxidant 1010 on properties of polyoxymethylene

ZHANG Lijuan1,CHENG Rui 2,DING Xuejia1,ZHANG Yu1,ZHOU Kebin1,GUO Tiantian1,HAN Haijun1   

  1. 1Key Laboratory of Beijing City on Preparation and Processing of Novel Polymer Materials,Beijing University of Chemical Technology,Beijing 100029,China;2The Second Artillery Force Military Representative Office,31st Institute,Beijing 100074,Chinapolyoxymethylene;antioxidant;ultraviolet aging;blends
  • Online:2011-08-05 Published:2011-08-05

抗氧剂1010对聚甲醛性能的影响

张丽娟1,成 睿2,丁雪佳1,张 雨 1,周克斌1,郭甜甜1,韩海军1   

  1. 1北京化工大学新型高分子材料制备与加工北京市重点实验室,北京 100029;2第二炮兵驻31所军事代表室,北京 100074

Abstract:

Antioxidant 1010 and copolyamidesCOPAwere used as large molecules free radical scavenger and formaldehyde absorbents for polyoxymethylenePOMrespectivelyto investigate the ultravioletUVaging properties of the blend. The effect of different compositions on mechanical properties and microstructure of POM was studied. Analysis with polarized light microscopyPLMand differential scanning calorimetryDSCshowed crystallizing nucleation effects of antioxidant and COPA on POM. The contents of both antioxidant and COPA of 0.5% gave the best performance of UV aging. Mechanical properties were also excellent. TGA results showed that decomposition temperature of the blend was higher. The blend presented typical non-Newtonian fluid behaviorand when antioxidant contents was less than 0.5%its complex viscosity was higher than POM. After UV ageingthe complex viscosity of the blend was also higher than POM.

摘要:

选用抗氧剂1010作为大分子自由基的捕捉剂,共聚酰胺(COPA)作为甲醛的吸收剂对聚甲醛(POM)共混体系进行紫外老化性能研究,考察不同组成的复合体系对POM力学性能和微观结构的影响。偏光显微镜(PLM)和差示扫描量热仪(DSC)分析结果表明:少量抗氧剂1010COPAPOM起到了结晶成核作用,当抗氧剂和COPA含量均为0.5%时,POM耐紫外老化性能较佳。此时,力学性能优异。热重分析结果表明:加入抗氧剂后,POM分解温度有所提高。流变行为研究表明:POM共混体系呈现典型的非牛顿流体行为,当抗氧剂含量小于0.5%时,共混体系复数黏度均高于纯POM;紫外老化后性能亦如此。

京ICP备12046843号-2;京公网安备 11010102001994号
Copyright © Chemical Industry and Engineering Progress, All Rights Reserved.
E-mail: hgjz@cip.com.cn
Powered by Beijing Magtech Co. Ltd