浸出液采用隔膜电解方法产出阴极铜。
因镍铜共生,除生产镍产品外,还生产阴极铜。
It produces cathode coppers except nickel products because of the coexistence of nickel-copper.
阴极铜;
介绍了金昌冶炼厂高电流密度生产阴极铜的实践及取得的成果。
This paper introduces the production practice for copper electrolysis by raising current density in Jinchang Smelter and effects thus achieved.
分析了高纯阴极铜铅超标的原因,介绍了解决措施和取得的效果。
This paper analyses the causes for lead exceeded of high purity cathode copper, introduces the measure to solve and the results achieved.
西班牙韦尔瓦精炼厂1970年开始生产,1995年采用了艾萨永久阴极铜技术。
The electrolytic copper refinery in Huelva, Spain began operations in 1970, and since 1995, has operated using ISA permanent cathode technology.
冶炼阴极铜所产生的铜渣,含铜品位比较高,对铜渣选铜具有很高的经济效益和社会效益。
The copper cinder produced from cathode copper is high grade. Recovering copper from copper cinder is of important social and economic benefit.
阴极铜的物理品质直接影响其化学品质,而阴极铜化学品质的高低决定了其加工性能的好坏。
Physical quality of cathode copper effects on its chemical quality which determines its characteristics of processing.
到1997年,通过工艺的革新优化,并提高电流密度,使阴极铜的产量超过了该设计能力。
Cathode production surpassed this design by 1997 through innovative process optimization and increasing the current density.
在传统法铜电解工艺中,种板系统生产出好的始极片是生产高品质阴极铜的重要前提和基础。
In the process of copper electrolysis by the traditional method, good stating sheet product is a major premise and basis for producing copper cathode of high quality.
本文结合贵冶历年的生产实践来讨论砷、锑、铋等杂质在阴极铜生产过程中的危害以及脱除方式的进展。
This paper discusses the harmfulness and removal method development combining Guixi Smelter's operation practices over the years.
冶炼商和精炼商将干原料(即铜精矿)加工为阳极铜、以及最终加工为阴极铜收取的费用也令人意外地出现了下降。
There has also been a surprise drop in the fees charged by smelters and refiners to process dry feedstock, or copper concentrate as it is known, into anodes and eventually cathodes.
研究电解温度,电流密度,铜离子浓度等对阴极铜质量的影响,通过目测和金相显微观察的方法对影响效果进行评价。
The effect of electrolytic temperature, current density and concentration of copper-ion on the surface quality of copper on cathode was investigated.
研究电解温度,电流密度,铜离子浓度等对阴极铜质量的影响,通过目测和金相显微观察的方法对影响效果进行评价。
The effect of electrolytic temperature, current density and concentration of copper-ion on the surface quality of copper on cathode was investigated.
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