1.
Research on preparation of activated carbon from tea seed shell by zinc chloride
氯化锌法制备油茶籽壳活性炭的研究
2.
Research on Low Temperature Preparation of Zinc Chloride Activation of Mulberry Branch Activated Carbon
氯化锌法低温活化制备桑枝活性炭的研究
3.
Preparation and Characterization of Activated Carbons from the Tung Nutshell Using ZnCl_2 Activation;
氯化锌活化法桐壳基活性炭的制备及表征
4.
Preparation of Activated Carbon from Bagasse by Activation with Zinc Chloride
氯化锌活化法制备甘蔗渣活性炭吸附剂
5.
A Practical Method for High-purity Anhydrous Zinc Chloride in Laboratory;
高纯度无水氯化锌的一种实验室制备方法
6.
anthraquinonediazonium chloride zinc chloride compound
蒽醌重氮氯化锌复合物
7.
Methods for chemical analysis of tungsten concentrates--The ammonium hydroxide-ammonium chloride supporting electrolyte polarographic method for the determination of zinc content
GB/T6150.13-1985钨精矿化学分析方法氢氧化铵-氯化铵底液极谱法测定锌量
8.
Preparation technology of zinc chloride from acid leaching low-grade zinc ash in oxygen rich environment
富氧催化酸浸低品位锌灰制取氯化锌工艺研究
9.
Analysis of Malfunction Brought by Zinc Chloride Quality Problem in an Acidic Zinc Plating Bath
由氯化锌质量问题引起的酸性镀锌故障分析
10.
Study on Preparation of Activated Carbon with Sewage Sludge Activated by Zinc Chloride
氯化锌活化污水污泥制备活性炭研究
11.
Application of Nano-ZnO to CR
纳米氧化锌在氯丁橡胶中的应用研究
12.
Synthesis of N-alkyl-3-chloride propylamines catalyzed by Zn powder;
锌粉催化合成N-烃基-3-氯丙胺
13.
Effects of Zncl_2 Spraying on Fruit Quality of Korla Fragrant Pear
氯化锌对库尔勒香梨果实品质的影响
14.
The common determination method of boric acid in brighten sulfate zinc electroplating baths was corrected to meet the requirements of production.
光亮硫酸盐镀液中硼酸的测定,一般采用氯化钾镀锌体系中对硼酸的测定方法。
15.
Thermochemical Properties Research of Solid Complex of 2-Aminopyrimidine and Chlorination Zinc;
氯化锌与2-氨基嘧啶配合物的热化学性质研究
16.
Study on Phase Chemistry of Zinc Chloride Reaction in Hydrochloric Acid System at 25℃;
氯化锌在盐酸介质中反应的相化学研究(25℃)
17.
Characterization on Pore Structures and Preparation of Activated Carbon from Cotton Stalk Impregnated with Zinc Chloride
氯化锌活化棉杆制备活性炭及孔结构表征
18.
Synthesis of Ethyl Acetate Catalyzed by Zinc Chloride under the Conditions of Microwave Heating
微波加热条件下氯化锌催化合成乙酸乙酯