1) in situ compatibilization
原位增容
1.
PS-g-PA6/PA6 polymer alloys were prepared via in situ polymerization and in situ compatibilization on a mixer based on PS-MMA/CL(50/50)blend system.
用原位聚合 /原位增容的方法 ,在密炼机上将PS MMA/CL共混并引发CL阴离子聚合制备PS g PA6 /PA6的共混物。
2.
The results showed that they are uncompatible between PPO,PA6 and POE; PPO g MA and POE g MA have in situ compatibilization effect on PPO/PA6 blends; PPO and POE are dispersed in PA6 continuous phase within the studied composition; and brittle.
结果表明, P P O、 P A6 、 P O E 三组份间互不相容; P P Og M A 和 P O Eg M A 分别增强了 P P O 与 P A6 、 P O E 与 P A6 之间的相容性, 起到了原位增容的作用; 在本研究的组份范围内, P P O 和 P O E 分散在 P A6 的连续相中; 共混体系的脆—韧转变受控于相间的界面强度和弹性体的用
3.
Reactive compatibilization, or in situ compatibilization can be adopted to efficiently improved the compatibility between the polymer components, reduce the size of the dispersed particles and thus enhance the properties of the materials.
通过反应性增容(或原位增容)可有效地改善聚合物组分间的相容性,减少分散相粒子的尺寸,从而提高材料的性能。
3) In situ Reactive Compatibility
原位反应增容法
4) in situ reactive compatibilization
原位反应增容
5) In-situ Reinforcement
原位增强
1.
In-situ Reinforcement of Silicone Rubber;
有机硅橡胶原位增强新工艺
2.
As a novel technology,the in-situ reinforcement of silicone polymer via sol-gel process is effective in promoting the dispersion of various fillers in polymer matrix and avoiding the agglomeration of fillers.
基于溶胶-凝胶原理的有机硅橡胶原位增强新方法有效地解决了填料在聚合物基体中的分散和团聚问题,可得到具有更好机械性能和耐热性能的有机硅材料。
3.
The effects of the contents of different regulators including D-sorbital, mannose, galactose, glucose, and fructors on the growth of hydroxyapaptite crystal seeds were studied, and the crystal seeds obtained were then applied to the in-situ reinforcement of calcium phosphate cement.
在此基础上,进一步将合成的晶种应用于磷酸钙骨水泥(简称CPC)的原位增强中,使水化产物晶体之间定向生长和排列,从而达到对CPC进行增强的目的。
6) In-situ Toughening
原位增韧
补充资料:增容剂
分子式:
CAS号:
性质:也称相容剂,是近十多年来发展起来的一类塑料助剂。它加在高分子共混物中,促进组分间的相容性,使组分均匀分散而不发生相分离,从而达到改进塑料合金性能及制备多种塑料合金的目的。实际上相容剂也是一种高分子偶联剂。
CAS号:
性质:也称相容剂,是近十多年来发展起来的一类塑料助剂。它加在高分子共混物中,促进组分间的相容性,使组分均匀分散而不发生相分离,从而达到改进塑料合金性能及制备多种塑料合金的目的。实际上相容剂也是一种高分子偶联剂。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条