1) acetaldoxime reaction
乙醛肟反应
2) acetaldoxime
[,æsitæl'dɔksaim]
乙醛肟
1.
Synthesis and reaction kinetics of acetaldoxime as water deoxidiser;
除氧剂乙醛肟的合成及除氧反应动力学研究
2.
Determination of Acetaldoxime by Potentiometric Titration;
电位滴定法测定乙醛肟的含量
3) Glyoxylic acid oxime
乙醛酸肟
4) pure acetaldehyde oxime
纯乙醛肟
1.
The present artical provides a process for the production of pure acetaldehyde oxime by the principle of aceotropic extraction and the selected solvent.
介绍了通过所选用的溶剂,利用共沸萃取原理,制取纯乙醛肟的工艺过程。
5) acetaldehyde oxime
乙醛肟
1.
Experiment of acetaldehyde oxime being reducer in boiler acid cleaning;
乙醛肟作还原剂在锅炉酸洗中的试验研究
2.
The method of preparing acetaldehyde oxime is developed with hydroxycamine sulfate from sodium nitrite and sulfur dioxide,and the optimal condition is also given.
研究了以亚硝酸钠和二氧化硫为原料,经硫酸羟胺合成乙醛肟的方法。
6) glyoxime
[,ɡli'ɔksaim]
乙二醛二肟
1.
Based on the absorption property of glyoxime which can be formed by addition reaction of aldehyde group and hydroxylamine in the UV-spectral region,spectrophotometric determination of glyoxal in glyoxal solution was proposed.
利用醛基与羟胺在酸性条件下的成肟反应产物乙二醛二肟对紫外光的吸收特性,用紫外分光光度法测定乙二醛的含量。
2.
Abstrac This paper reports the determination of glyoxal by UV spectrophotometry after transfering it into glyoxime.
首次报道利用醛基的成肟反应以及乙二醛二肟对紫外光的特征吸收,用紫外分光光度法测定乙二醛的含量。
补充资料:乙醛肟
分子式:C2H5NO
分子量:59.070
CAS号:107-29-9
性质:有两种结晶形态,α型熔点46.5℃,β型熔点12℃。相对密度0.966,沸点114.5℃,折光率1.415。可被盐酸分解成乙醛和羟胺。易溶于水、醇和醚。
制备方法:由羟胺和乙醛水溶液反应而得。
用途:用于有机合成。
分子量:59.070
CAS号:107-29-9
性质:有两种结晶形态,α型熔点46.5℃,β型熔点12℃。相对密度0.966,沸点114.5℃,折光率1.415。可被盐酸分解成乙醛和羟胺。易溶于水、醇和醚。
制备方法:由羟胺和乙醛水溶液反应而得。
用途:用于有机合成。
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