1) Microemulsion
混合微乳液
1.
Sensitized Reaction of Mixed Microemulsion on the Cadmium with 2 (5 Bromo Pyridylazo) 5 Dethyaminophenol;
混合微乳液的增敏作用研究──Cd(Ⅱ)-5-Br-PADAP的分光光度测定
2) microemulsion polymerization
微乳液聚合
1.
Research progress of microemulsion polymerization in preparation of separation membranes;
微乳液聚合在分离膜制备中的应用研究进展
2.
Study on the surfactant in the microemulsion polymerization;
表面活性剂在微乳液聚合中的应用
3) Micro-emulsion polymerization
微乳液聚合
1.
The applications of micro-emulsion polymerization,emulsifier-free emulsion polymerization and nanotechnology in the synthesis of Silicone-acrylic emulsion were discussed emphatically.
综述了高性能硅丙乳液的制备路线、制备技术及组成特征,重点分析了微乳液聚合、无皂乳液聚合、纳米技术等在高性能硅丙乳液制备中的应用,探讨了制备硅丙乳液的新型单体的研究进展,展望了高性能硅丙乳液的制备方向。
2.
This paper introduces the characteristics of micro-emulsion polymerization and details the research status of PU- acrylate composite micro-emulsion reported domestic and overseas, including preparation methods, additives selection and the in uence on nal products performances; points out disadvantages of present research; and looks forward the future of PU- acrylate micro-emulsion development.
简要介绍了微乳液聚合的一些特点,详细总结了国内外已见诸报道的聚氨酯-丙烯酸酯复合微乳液的研究现状,包括制备方法以及各种添加剂的选择及其对最终产品性能的影响,同时指出了目前研究的不足之处,并对聚氨酯-丙烯酸酯微乳液聚合的发展前景做了展望。
4) microemulsion
微乳液聚合
1.
Translucent porous polymeric materials were then prepared via thermally initiated microemulsion polymerization with methyl methyacrylate(MMA) as a monomer,Na-MAD as the surfactant and 2-hydroxyethyl methyacrylate(HEMA) as a co-surfactant.
利用易于合成的马来酸单十二醇酯钠盐为可聚合表面活性剂,以甲基丙烯酸羟乙酯为助表面活性剂,研究了甲基丙烯酸甲酯的微乳液聚合,制得了具有连续孔结构(即开孔结构)的高分子材料,孔的尺寸为100 nm至数微米,材料呈半透明至白色不透明状。
2.
Moreover, the mechanisms of emulsion and microemulsion polymerization of PVAc is very illegible, and they were also investigated primarily in this paper.
此外,由于醋酸乙烯酯(VAc)水溶性好,其乳液聚合以及微乳液聚合反应机理较典型的乳液和微乳液聚合过程复杂,本文也对此进行了初步探讨。
3.
Combine ATRP with microemulsion polymerization, we can get micropaiticle with controlled structure.
反向原子转移自由基聚合(Reverse Atom Transfer Radical Polymerization,RATRP)是一种新型的可控自由基聚合方法,是实现聚合物分子结构控制、制备新型功能高分子的有效手段,近年来这一领域的研究十分活跃,研究内容也十分广泛,主要包括新的引发催化体系、新的单体和新的聚合物结构、聚合机理和聚合动力学等;而微乳液聚合一般以水为介质,绿色、环保,是制备聚合物超微粒子的有效方法。
5) Composite microemulsion polymerization
复合微乳液聚合
6) Emulsion/Microemulsion photopolymerization
乳液/微乳液光聚合
补充资料:上相微乳液
分子式:
CAS号:
性质:在高盐度时,W/O微乳液与剩余盐水共存并处于平衡状态时,称为上相微乳液。因W/O型微乳液密度较盐水小,在试管中拉于盐水的上面,故名上相微乳液。它所用的表面活性剂常为亲油性,HLB(亲水亲油平衡值)为4~7,例如用甘油单月桂酸酯硫酸钠、油(如正癸烷)、盐水、醇配制成的微乳液即为上相微乳液。
CAS号:
性质:在高盐度时,W/O微乳液与剩余盐水共存并处于平衡状态时,称为上相微乳液。因W/O型微乳液密度较盐水小,在试管中拉于盐水的上面,故名上相微乳液。它所用的表面活性剂常为亲油性,HLB(亲水亲油平衡值)为4~7,例如用甘油单月桂酸酯硫酸钠、油(如正癸烷)、盐水、醇配制成的微乳液即为上相微乳液。
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