Results Iminodiacetic acid was synthesized cleanly from diethanolamine.
结果二乙醇胺直接清洁氧化合成亚氨基二乙酸。
Study on Synthetic Technique of Hydroxycitronellal by means of Citronellal Protected by Diethanolamine;
研究桂醛、羟基香茅醛对小鼠离体皮肤透皮吸收率。
It is prepared from the reaction of formaldehyde and diethanolamine, the structure of which has been determined by IR, NMR and MS respectively.
OX—2是由二乙醇胺与甲醛缩合反应而制得,其结构经过红外光谱、核磁共振谱及质谱等进行确定。
The model is examined with the simulation for absorption of H_2S and CO_2 with the solution of diethanolamine and methanol IO industrial columns.
探讨了模型的解法,并用二乙醇胺和甲醇溶液吸收h_2s和co_2的工厂操作实测数据对模型进行了验证。
The condensation of citronellal with diethanolamine was promoted in the existence of dehydrating agent, producing a stable condensate, the yield was 97. 9%;
以脱水剂促进香茅醛与二乙醇胺缩合,生成稳定缩合物,产率达97.9%;
Under the protection of nitrogen, the ricinoleic alkyl alcohol amide borate (RAB) was synthesized with castor oil, diethanolamine and boric acid as raw materials.
在氮气保护下,以蓖麻油、二乙醇胺和硼酸为基本原料,合成了蓖麻油烷醇酰胺硼酸酯(RAB)。
A cationic protein filling agent has been prepared from collagen hydrolysate by amidation with ethanolamine and amination with diethanolamine-formaldehyde condensate.
采用乙醇胺对胶原水解物酰胺化,采用二乙醇胺与甲醛的缩合物胺化,制得了阳离子蛋白填充剂。
Through groping and probing into the analytical method for diethanolamine in the solution for CO_2 removal, the dose of developer is ascertained as well as the heating and reaction time.
通过对脱碳溶液中二乙醇胺分析方法的摸索和探讨,确定了分析方法中显色剂的用量、加热时间和反应时间。
The aminolysis reaction rate constants of ethylene carbonate by ethanolamine, diethanolamine and butylamine were obtained according to the kinetic curves under different reaction conditions.
根据动力学曲线获得了乙撑碳酸酯与三种有机胺在不同反应条件下发生胺解反应的速率常数。
According to the molecule design, a kind of modified resin which have both epoxy groups and hydrophilic groups was synthesized from polyfunctional group novolac epoxy resin (F-51) and diethanolamine.
采用化学改性法,选择多官能团酚醛环氧树脂(F—51)与二乙醇胺进行定量加成反应,合成了一种在分子结构上既具有环氧基团,又具有亲水性基团的改性树脂。
According to the molecule design, a kind of modified resin which have both epoxy groups and hydrophilic groups was synthesized from polyfunctional group novolac epoxy resin (F-51) and diethanolamine.
采用化学改性法,选择多官能团酚醛环氧树脂(F—51)与二乙醇胺进行定量加成反应,合成了一种在分子结构上既具有环氧基团,又具有亲水性基团的改性树脂。
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