1) hydrolysis decarboxylation reaction
水解脱羧
1.
N-Propyl-piperidone was synthesized with propylamine and methyl acrylate as raw materials via a series of Michael addition, Dieckmann condensation and hydrolysis decarboxylation reactions.
以丙烯酸甲酯和丙胺为原料,经过Michael加成,Dieckmann缩合和水解脱羧反应,简便、高效地合成了N-丙基-4-哌啶酮。
2) hydrolysis
水解
1.
Hydrolysis Kinetics of Microcrystalline Cellulose in Formic Acid System;
微晶纤维素在盐酸、甲酸体系中的水解动力学
2.
Hydrolysis of Hemicellulose for Fermentation of Xylitol;
水解半纤维素发酵转化木糖醇
3.
Study on isolating and purifying soy isoflavone aglycone by β-glucosidase hydrolysis;
β-葡萄糖苷酶水解、分离纯化大豆异黄酮甙元工艺研究
3) hydrolyze
水解
1.
Optimization of technology parameters of trypsinase directly hydrolyzed milk;
胰蛋白酶直接水解牛乳的技术参数优化
2.
Treatment of Pulp Washing Effluent by Hydrolyze-Aerobic Process;
水解-好氧工艺处理造纸中段废水
4) hydrolyzing
水解
1.
Investigation on Borate Anti - rust and Lubricating Additive and Its Hydrolyzing Stability;
防锈润滑添加剂硼酸酯及其水解安定性的研究
2.
Study on Post-Crosslinking-Hydrolyzing Copolyacrylonitrile Fiber and Its Water Absorption Property;
后交联—水解型共聚丙烯腈纤维及其吸水性能的研究
3.
In order to improve the hydrophilic performance of conventional polyacrylonitrile fibers,the hydrophilic co-polyacrylonitrile fibers with three dimensional network structures were prepared with acrylonitrile and methylmethacrylate as monomers and N-hydroxymethyl acrylamide as potential crosslinking agent by solution polymerization,wet-spinning,post-crosslinking and alkaline hydrolyzing.
为改进常规聚丙烯腈纤维的亲水性能,以丙烯腈、甲基丙烯酸甲酯为单体,以N-羟甲基丙烯酰胺为潜交联剂,溶液聚合后湿法纺丝成形,经后交联和碱性水解处理,制成具有三维网状结构特征的亲水性共聚丙烯腈纤维。
5) hydrolyzation
水解
1.
Study on the relationship of the conditions of polysuccinimide hydrolyzation and scale inhibition effect of polyaspartic acid;
聚琥珀酰亚胺水解条件与聚天冬氨酸阻垢性能关系的研究
2.
Pilot-scale test of hydrolyzation-acidification-oxidation process for the wastewater from dyestuff production;
水解-酸化-好氧工艺处理还原性染料废水的中试研究
3.
Preparation of high purity aluminium hydroxide by aluminium hydrolyzation;
金属铝水解制备高纯氢氧化铝
6) hydrolization
水解
1.
Synthesis of the Cell Material LiNiO_2 by Hydrolization of Metal Alkoxides;
金属醇盐水解法制备电池材料LiNiO_2
2.
The technique condition was studied with the degree of hydrolization as index primarily.
以大豆分离蛋白为原料,通过米曲霉的发酵生产大豆多肽,先以水解度为指标初步探索发酵工艺条件,然后通过正交试验,并以大豆多肽含量为指标确定摇瓶发酵的最佳工艺条件,即发酵液初始pH6。
3.
The factors,including triphenyl phosphate(TPP) content,hydrolization time,the volume of water and catalyzer concentration,affecting degree of substitution(DS) of cellulose triacetate(CTA) in hydrolization are studied.
研究了增塑剂磷酸三苯酯(TPP)含量、含水量、催化剂的比例以及水解时间对三醋酸纤维素(CTA)水解产物取代度(DS)的影响。
参考词条
补充资料:解脱
印度唯心主义哲学派别通用的术语。解脱是对轮回而言。按印度唯心主义哲学,轮回意即六道流转的继续。解脱即烦恼业因的终止,是破除业力的桎梏、结束轮回转生后的一种超验境界。就历史而言,解脱思想的出现似比轮回观念早些。在轮回的观念尚未形成时,人们只是例行地举行祭祀,敬神积福,祈求死后升天,不再降生人间。解脱仅仅意味着肉体消亡,灵魂升天。在《梨俱吠陀》中,已多处表示了这种一般意义的"解脱"。
到奥义书时期,解脱被赋予了哲学的奥义。解脱并不限于死后升天,而且还有现实的意义,即于今生遁迹兰若,断绝尘缘,加持瑜伽。瑜伽是达到解脱的方法,一般有三种:智瑜伽、行瑜伽、信瑜伽。解脱既指死后肉体的消亡,亦指生前精神的升华。佛典有所谓两种涅槃:有余涅槃和无余涅槃。前者谓寿尽前精神升华所得的解脱,后者谓寿尽时肉体消亡所得的解脱。业力-轮回、苦行-解脱,这一套来世论-解脱论,为具有唯物主义思想的学派所否定,但为印度所有唯心主义哲学流派所接受。它在今天的印度意识形态领域中仍有相当大的影响。
到奥义书时期,解脱被赋予了哲学的奥义。解脱并不限于死后升天,而且还有现实的意义,即于今生遁迹兰若,断绝尘缘,加持瑜伽。瑜伽是达到解脱的方法,一般有三种:智瑜伽、行瑜伽、信瑜伽。解脱既指死后肉体的消亡,亦指生前精神的升华。佛典有所谓两种涅槃:有余涅槃和无余涅槃。前者谓寿尽前精神升华所得的解脱,后者谓寿尽时肉体消亡所得的解脱。业力-轮回、苦行-解脱,这一套来世论-解脱论,为具有唯物主义思想的学派所否定,但为印度所有唯心主义哲学流派所接受。它在今天的印度意识形态领域中仍有相当大的影响。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。