1·A kind of porous polyamide carriers to immobilize anaerobic microorganisms was prepared by interfacial polymerization method.
采用界面聚合方法制备出固定化厌氧微生物多孔囊状聚酰胺载体。
2·The use of three-phase interfacial polymerization, polymerization of monomer on the screen to optimize the polymerization conditions.
采用三相界面聚合法,对聚合单体进行筛选,对聚合条件进行优化。
3·These results proved that there were some interrelation between the rules of interfacial polymerization and the performance of membranes.
这些结果说明了界面聚合反应的规律和生成膜的分离性能的变化规律基本一致。
4·The engineering characteristics of the interfacial polymerization of bis-phenol- A and phosgene to form polycarbonate have been verified by experiments.
本文在聚碳酸酯界面缩聚反应间歇实验的基础上,进行了反应过程的分析。
5·Microcapsules were prepared by interfacial polymerization, with adipoyl chloride-triethylenetetramine as wall material, and tetrachloroethylene as core material.
以己二酰氯-三乙烯四胺为壁材,四氯乙烯为芯材,通过界面聚合法制备微胶囊。
6·METHODS: An optimal design was selected to establish the optimal condition, and the interfacial polymerization method was used to prepare the nanoparticle system.
方法:采用均匀设计方法设计实验,以界面聚合法制备出阿克拉霉素A聚乳酸毫微粒。
7·All the results indicate that interfacial polymerization between isocyanate and amine to form polyurea wall material is a quick, effective way for capsulation of wax.
实验结果表明由异氰酸酯与胺反应形成聚脲囊壁材料是一种快速、有效的包裹石蜡的方法。
8·Tetrabromobisphenol-A polycarbonate (TBBPA-PC) was synthesized by interfacial polymerization with triphosgene (BTC) and tetrabromobisphenol a (TBBPA) as raw materials.
以三光气(BTC)和四溴双酚a (TBBPA)为原料,经界面缩聚合成了高分子量四溴双酚a聚碳酸酯。
9·Slow-released microcapsule anti-mosquito finishing agent was prepared using polyurethane as wall and anti-mosquito finishing agent HLQZ as core by interfacial polymerization.
研究了自制乳化剂、芯壁比、反应温度以及催化剂用量对合成防蚊整理剂的影响。
10·In this paper the applications of interfacial polymerization in preparation of materials in recent years are reviewed and analyzed, and its research trend in future is put forward.
介绍并分析了近几年来界面聚合技术在材料制备中的应用,指出了今后的研究方向。