1) mesitylene
[英][mi'sitəli:n] [美][mə'sɪtə,lin]
均三甲苯
1.
Synthesis of mesitylene by catalytic alkylation of mixed C9 arenes and isobutene;
混合C_9芳烃异丁烯催化烷基化合成均三甲苯
2.
Synthesis of trimesic from liquid phase oxidation of mesitylene by air;
均三甲苯液相空气氧化合成均苯三甲酸
3.
Macrokinetics of mesitylenic acid synthesis by oxidation of mesitylene;
均三甲苯氧化合成间二甲基苯甲酸的宏观动力学
2) 1,3,5-Trimethylbenzene
均三甲苯
1.
The alkylation product 4-(2,4,6-trimethylphenyl)butyric acid could be synthesized via the reaction of 1,3,5-trimethylbenzene with γ-butyrolactone catalyzed by AlCl 3 at room temperature.
在无水AlCl3 的催化作用下 ,均三甲苯与γ 丁内酯在室温下即可发生烷基化反应生成 4 (2 ,4 ,6 三甲基苯基 )丁酸 。
2.
The factors influencing the usage of bottom oil of 1,3,5-trimethylbenzene tower were analyzed.
分析了影响均三甲苯塔底油循环使用的因素。
3.
To improve the current production techniques for 1,3,5-trimethylbenzene and develop a practical process for industrial production, a new technology of synthesis of 1,3,5-trimethylbenzene from the cheap raw materials xylene and methyl chloride were studied.
研究了以廉价的混合二甲苯和一氯甲烷为原料、液相法合成均三甲苯的新工艺 ,讨论了各种工艺条件对反应的影响 ,并找到了最佳工艺条件 ,即混合二甲苯 10 0 0mL ,反应温度 12 0— 130℃ ,催化剂用量5 % ,烷基化剂流量 0 。
3) trimethylbenzene
均三甲苯
1.
Investigation on Dinitration of 1,3,5-trimethylbenzene.;
均三甲苯二硝化反应的研究
2.
Techno-economic Analysis on the Production of 1,3,5-Trimethylbenzene;
国内最大的均三甲苯装置设计
3.
Although the content of 1,3,5-trimethylbenzene is high in the isomerization of 1,2,4-trimethylbenzene, the process is extremely difficult to be realized industrially because of the accumulation of methylethylbenzene.
在偏三甲苯异构化生产均三甲苯的过程中 ,虽然反应液中均三甲苯含量较高 ,但甲乙苯的累积使该过程的工业化难度大 ,生产成本高 。
4) 1,3,5-benzenetricarboxylate
均苯三甲酸
1.
8)were synthesized and the trimesic acid(1,3,5-benzenetricarboxylate,H_3BTC,C_9H_3O_6)was used in ligand.
从1,3,5-均苯三甲酸出发,制备了一系列铽及镧铽均苯三甲酸发光配合物LaxTb1-x(BTC)。
5) trimesic acid
均苯三甲酸
1.
Study on stability of the chelates of the rare earth elements with trimesic acid;
稀土离子与均苯三甲酸配位稳定性研究
2.
Study on preparation of trimesic acid from catalysis and oxidation by air under normal pressure;
常压催化氧化合成均苯三甲酸的新工艺研究
3.
In the gas-liquid phase reaction of catalytic oxidation of mesitylene by air to synthesize trimesic acid and the related process,an analysis method of reaction components was proposed,which includes chromatographic analysis,mass spectral analysis,IR spectrum,atomic absorption spectrophotometer and chemical titration for the purpose of analyzing reaction groups.
针对均三甲苯气液相催化空气氧化合成均苯三甲酸的反应及相关的工艺过程中,反应产物均苯三甲酸的分析问题,提出以色谱分析、质谱分析、红外光谱分析、原子吸收光谱分析及化学滴定为主要分析手段对反应组分进行分析,重点研究并建立了相关的分析方法。
6) trimesic
均苯三甲酸
1.
Synthesis of trimesic from liquid-phase oxidation by air;
液相空气氧化合成均苯三甲酸
2.
Kinetics and mechanism of liquid-phase oxidation of mesitylene into trimesic;
液相空气氧化法制备均苯三甲酸反应动力学
3.
Synthesis of trimesic from liquid phase oxidation of mesitylene by air;
均三甲苯液相空气氧化合成均苯三甲酸
补充资料:均三甲苯
均三甲苯 mesitylene 一种芳烃,分子式(CH3)3C6H3。又称1,3,5-三甲苯。存在于煤焦油和某些石油中。无色液体。熔点-44.7℃,沸点164.7℃,相对密度0.8652(20/4℃)。均三甲苯用稀硝酸氧化可生成1,3,5-苯三甲酸。纯均三甲苯由丙酮在300~500℃下气相催化脱水制得: 3CH3COCH3→(CH3)3C6H3+3H2O |
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