1) alkaline hydrolysis
碱性水解
1.
Synthesis of glycolic acid monomer by chloroacetic acid alkaline hydrolysis method;
氯乙酸碱性水解法合成羟基乙酸单体的研究
2.
Studies on kinetics of alkaline hydrolysis of PNPA catalyzed by micelles;
胶束催化对硝基苯酚乙酸酯碱性水解的动力学研究
3.
Effects of micelles of the cationic surfactantCTAB,the animic surfactant LAS and the nonionic surfactant Tween80 on the alkaline hydrolysis of iso-amyl acetate have been studied at 35℃and 45℃.
利用电导率法研究了在35℃和45℃下,乙酸异戊酯在阳离子表面活性剂CTAB(十六烷基三甲基溴化铵)、阴离子表面活性剂LAS(十二烷基苯磺酸钠)以及非离子表面活性剂Tween80(聚氧乙烯失水山梨醇单油酸酯)介质中的碱性水解反应。
2) basic hydrolysis
碱性水解
1.
The relation between sodium hydroxide consumption and Polyvinylmine(PVAm) generation and the kinetics of basic hydrolysis of PNVF were investigated.
研究了聚乙烯甲酰胺 ( PNVF)碱性水解反应动力学 ,碱的消耗量与氨基生成量的关系 。
2.
Benzaldehyde was prepared by basic hydrolysis of cassia leaf oil using phase transfer catalyts.
在相转移催化条件下 ,从桂叶油出发通过碱性水解制备天然苯甲醛。
3.
To apply basic hydrolysis of polyvinylformamide(PNVF) to productive practice, the kinetics of the reaction was studied, before which the stoichiometric ratio of PNVF and sodium hydroxide being 2:1 had been determined and that the regularity of the reaction had been discussed.
为了将聚乙烯甲酰胺(PNVF)碱性水解反应应用于生产实践,本研究在探讨PNVF碱性水解反应规律、确定氨基生成量和碱的消耗量物质的量的比为2:1的基础上,对其反应动力学进行研究。
3) Alkaline water electrolysis
碱性水电解
1.
The alkaline water electrolysis technology is mature according with the environmental protection requirements in the current hydrogen production, however, because of higher energy consumption, its application has been limited.
在当前制氢工业生产中,碱性水电解技术是符合环保要求的成熟技术,但因能耗较高,其应用受到了限制。
4) alcalase enzymatic hydrolysis
碱性酶水解
5) alkaline hydrolysis properties
碱水解性能
1.
Study on comfort polyester fiber Part 1: Effect of additive content alkaline hydrolysis properties of blend polyester fiber;
舒适性聚酯纤维研究 Ⅰ. 添加剂含量对共混纤维碱水解性能的影响
补充资料:碱性水解的淀粉-2-羟乙基醚
CAS:68512-26-5
中文名称:碱性水解的淀粉-2-羟乙基醚
英文名称:2-hydroxyethyl starch;Starch,2-hydroxyethyl ether,base-hydrolyzed
中文名称:碱性水解的淀粉-2-羟乙基醚
英文名称:2-hydroxyethyl starch;Starch,2-hydroxyethyl ether,base-hydrolyzed
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