...一、中文摘要 本研究是以高分子材料为基板制备奈米微粒,其中 高分子基板是以无乳化剂乳化聚合法(emulsion-free polymerization)制备。本研究利用亚胺乙二酸(IDA)和缩水 甘油甲基丙烯酸酯(GMA)反应得到侧链具螯合官能基的 乙烯系单体,简称GMA-IDA。
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emulsifier free emulsion polymerization 无乳化剂乳液聚合
soap-free emulsion polymerization 无皂乳液聚合
Emulsifier-free emulsion polymerization 无皂乳液聚合 ; 无乳化剂乳液聚合
Surfactant-free Emulsion Polymerization 无皂乳液聚合法 ; 乳液聚合 ; 无皂乳液聚合 ; 无皂乳液聚合反应
free radical initiated emulsion polymerization 自由基引发乳液聚合
free emulsion polymerization 无皂乳液聚合
soup-free emulsion polymerization 无皂乳液聚合
The nucleation mechanisms and colloid stability are the key aspects of emulsifier free emulsion polymerization.
成核机理和稳定性是无皂乳液聚合的关键。
It is shown that conventional emulsion polymerization process leads to high gloss film and soap-free or micro-soap processes will lead to good water resistance and lower foaming.
研究表明采用常规乳液聚合涂膜的光泽较高,而采用无皂和微皂乳液聚合涂膜的耐水性较好,涂料的起泡性较低。
METHODS: the ternary fluorescent copolymer microspheres were synthesized by means of emulsifier-free emulsion polymerization.
方法:采用无皂乳液聚合法合成三元共聚荧光微球。
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