The thermal, rheological and mechanical properties of the "in-situ" chemical blending system PET/TLCP are investigated.
前言:研究了PET/TLCP 原位共混体系的热性能、流变性能、力学性能。
The effects of different blending methods and different contents of TLCP and PVDF on the properties of UHMPET were studied.
研究了不同混合方法和不同TLCP与PVDF用量对UHMPET各种性能的影响。
Because PET and TLCP are not miscible in thermodynamics, the effect that only using TLCP to "In-situ" reinforce PET by melt blending is not clear.
由于TLCP和PET在热力学上不相容,单纯用熔融共混法,以TLCP来对PET进行原位复合增强效果不明显。
The fracture process observed by SEM with a dynamic tensile stage showed that the dispersed phase of TLCP could delay and block the propagation of microcracks.
使用带拉伸实验台的扫描电镜观察到了TLCP微纤或微球对微裂纹扩展的阻滞及延缓作用。
Preparing in situ composite by blending thermoplastic polymer (TP) with thermotropic liquid crystalline polymer (TLCP) is one of important approach to reinforce polymer.
用热致液晶聚合物(TLCP)与热塑性塑料(TP)共混制备原位复合材料是增强高分子的重要途径。
Preparing in situ composite by blending thermoplastic polymer (TP) with thermotropic liquid crystalline polymer (TLCP) is one of important approach to reinforce polymer.
用热致液晶聚合物(TLCP)与热塑性塑料(TP)共混制备原位复合材料是增强高分子的重要途径。
应用推荐