2) cationic starch microspheres
阳离子淀粉微球
1.
Soluble starch as raw materials and Span60 and Tween 60 as complex emulsifier, N,N\'-methylene-acrylamide (MBAA) crosslinker, in the inverse suspension system to trigger K2S2O8 -NaHSO3 Synthesis ofneutral starch microspheres, and then ether agent GTA starch microspheres and neutral response system in the cationic starch microspheres.
以可溶性淀粉为原料,以Span60和Tween60为复配乳化剂,N,N′-亚甲基双丙烯酰胺(MBAA)为交联剂,在反相悬浮体系中以K2S2O8-NaHSO3引发剂合成中性淀粉微球,再用醚化剂GTA与中性淀粉微球反应,制得阳离子淀粉微球。
3) the cationic starch microspheres
阳离子型淀粉微球
1.
Then the cationic starch microspheres were prepared from the neutral starch microspheres by the secondary polymerization with GTA as cationic etherifying agent.
以反相悬浮法制备了N,N′-亚甲基双丙烯酰胺交联淀粉微球,通过醚化剂GTA与淀粉微球反应制得了阳离子型淀粉微球。
4) cationic microparticle
阳离子微粒
1.
The studied advances of the novel cationic microparticle retention sys tems were introduced in the paper.
介绍了新型阳离子微粒助留体系的研究情况,着重介绍了几种无机阳离子微粒和有机阳离子微粒的特点、作用机理及其与阴离子聚合物的复配情况。
2.
Layered double hydroxides consisting of layers with cationic charges may be the potential candidates of cationic microparticlesforming retention aid system with anionic polyacrylamide.
混合二元金属氢氧化物是自然界中唯一带有正电荷的粘土矿物,可望与阴离子聚丙烯酸胺组成阳离子微粒助留体系。
3.
This paper deals with the latest research in microparticle retention systems, focusing on the development in the complex system ofcationic microparticle and anionic polymer as well as the silicon ultramicrochemical technique.
论述了近两年来微粒助留体系的最新研究动态和研究成果,如阳离子微粒与阴离子聚合物复配的微粒助留系统、超微硅化学技术等。
5) cationic microemulsion
阳离子微乳
1.
Preparation and in vitro corneal retention behavior of novel cationic microemulsion/in situ gel system;
新型眼用阳离子微乳-原位凝胶的制备及其体外角膜滞留特性的研究
6) cationic pH-responsive microgels
阳离子型pH感应凝胶微球
补充资料:微阳
1.谓阳气始生。 2.微弱的阳光。
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