1.
Study on Recovering Indium and Tin from ITO Waste Targets;
从ITO废靶中分离回收铟、锡的研究
2.
Comprehensive-factor Experiment and Application of Recovery of Indium from the High Impurity Indium-Containing Material
从高杂质含铟物料中回收铟的综合条件试验与应用
3.
Recycling indium and tin by treating ITO waste with sulphuric acid and hydrochloric acid leaching-sulfide precipitation
混酸溶浸—硫化沉锡工艺处理ITO废料回收铟锡
4.
It introduces the process of recovering Indium from Lead reverberatory dust with H2SO4 leaching-P204 extraction.
文章介绍了用H2SO4浸出-P204萃取法从铅浮渣反射炉烟灰中回收铟的生产流程。
5.
The common methods of reclaiming indium from the byproducts of lead metallurgy and zinc hydrometallurgy are enumerated, and analyzed every method's virtue and shortcoming.
主要列举了从铅冶炼和锌湿法冶炼过程的副产品中回收铟的常用方法,并分析了各种方法的优缺点。
6.
Study on Recovering Indium from the Oxygen Pressure-Leaching Solution of Indium-Containing Zinc Concentrate
含铟锌精矿低温氧压酸浸液铟的回收试验研究
7.
Plant Practice of Comprehensive Recovering Indium from Tin System
从锡系统综合回收金属铟的生产实践
8.
The Study of Recovering Metal Indium from the ITO Target
从ITO靶材废料中回收提取金属铟工艺的研究
9.
(6)and (7)recovering CdS and metalic indium separately from acidic leaching solution of zinc hydrometallurgy;
(6)和(7)自湿法冶锌系统分别回收硫化镉和回收金属铟;
10.
The main process of producing indium in China is leaching-extraction-replacement, which is adopted to reclaim indium from lead and zinc metallurgical byproducts.
指出目前国内生产铟的主要方法是采用浸出—萃取—置换工艺回收铅、冶炼副产品中的金属铟。
11.
It also discusses how to raise recovery rate and resolve the emulsification and aging of organic phase.
并就如何提高铟回收率及解决有机相乳化、者化等问题进行了探讨。
12.
Enrichment and Comprehensive Recovery of Germanium and Indium in Smelting Process of the Closed Blast Furnace;
韶冶密闭鼓风炉熔炼过程中锗铟的富集与综合回收
13.
Determination of Trace Indium in Gangue by AAS
萃取-原子吸收法测定煤矸石中痕量铟
14.
Direct Determination of Trace Amounts of Bismuth in Pure Indium by Zeeman Flame Atom Absorption Spectrometry
塞曼火焰原子吸收法直接测定精铟中的微量铋
15.
Substituting Cobalt for Ag-In-Cd Alloy as Absorber Material of Control Rods
用钴代替银铟镉合金作控制棒的吸收体材料
16.
Determination of trace amounts of indium in the smelting charge of lead and zinc by flame AAS
火焰原子吸收法测定铅锌冶炼物料中低含量铟
17.
Study on the Ultraviolet-induced Absorption Coefficient Change in the Congruent In-doped Lithium Niobate Crystals;
同成份掺铟铌酸锂晶体中紫外光致吸收的研究
18.
Support vector regression modei for controlling the thickness of semiconductor In_2O_3 film
氧化铟半导体薄膜厚度控制的支持向量回归模型