阳极铜

  • 网络Anode copper;copper anode
阳极铜阳极铜
  1. 在讨论吸附机理的同时,还研究了阳极铜含Sb对电解过程杂质在阳极泥和电解液之间的分配比例的影响。

    Besides the mechanism of adsorption was discussed , the influence of antimony content in copper anode on the distribution of impurities between anode slime and electrolyte was studied .

  2. X射线荧光光谱法测定阳极铜各成分

    Determination of components in anode copper by XRF

  3. 尤其是阳极铜中的As、Sb、Bi在电解液中的分配比高,致使电解液中杂质浓度居高不下,电解液净化脱杂质压力大。

    Especially most of As Sb and Bi coming from anode copper are distributed into electrolyte , which leads augment of consistency of impurity and increase burden of purging electrolyte .

  4. 高镍、砷、锑阳极铜的电解精炼实践

    Electrolysis Refining Plant Practice of Anode Copper with High Ni , As and Sb Content

  5. 液化气消耗泛函混沌优化器应用结果表明,除了液化气耗量/t阳极铜降低了9.20%外,铜精炼炉燃烧状况也得到了较好的改善。

    The application results reveal that the consumption of liquefied petroleum gas per ton anode copper is reduced by 9.20 % and the burning conditions in copper refining rotary anode furnace are also improved .

  6. 互补型混合床阳极处理铜氰络合物废水的试验研究

    Study on the treatment of Cu-CYANIDE wastewater by complementary mixed bed anode

  7. 铁合金牺牲阳极在铜及其合金海水管路中的应用

    Appliance of iron alloy sacrifice electrode in seawater pipe made of copper or other alloy

  8. 从铅锑复合矿中综合回收产出的粗铜阳极含铜低,含铅银锑铋等杂质很高,无法采用常规电解方法电解。

    The copper recovered from jamesonite concentrate contains too much impurities like lead , sliver , antimony and bismuth , and can 't be refined with normal electrolysis process .

  9. 为了维持焦磷酸盐镀液在电极过程中稳定,作者采用钝性阳极与铜锡合金阳极交替使用,较好地解决了老镀液镀层质量下降的问题。

    By using a passive anode and a Cu-Sn alloy anode alternatively , the composition of the bath can be maintained , then the coating will keep high quality all the time .

  10. AC法处理高锑低银类铅阳极泥&铜和铋的回收

    AC process for treating lead electrolysis refining anodic slime bearing high antimony and lower silver : recovery of copper and bismuth

  11. 铜阳极泥中铜的预选控制与脱除

    Fore-control and Fore-elimination of copper in Its Anode Mud

  12. 某厂铜阳极泥中铜的回收试验研究

    COPPER Experimental Research on Recovery of Copper from Slime

  13. 铜阳极泥是铜电解精炼过程中产出的一种副产品,含有大量的贵金属和稀有元素,是提取贵金属的重要原料。

    The copper anode slime is a kind of by-product produced in the copper electrolytic refining process .

  14. 活性硫化镍是一种用于镍电解阳极液除铜的超细微粒物质。

    Activated nickle sulfide is a kind of superfine particle used in the removing copper of nickle electrolysis anode solution .

  15. 分别测出了黄铜阳极溶解时铜和锌的阳极溶解分电流密度。

    Partial anodic current densities of zinc and copper dissolution ( i_ ( Zn ) and i_ ( Cn )) of brass were measured respectively .

  16. 详细介绍了氯化浸出高冰镍溶液采用不溶阳极电解脱铜的试验过程。

    The process of decoppering through insoluble anode electrolysis in the solution produced by leaching high grade matte nickel using chlorine is introduced in this paper .

  17. 本文对镍冶炼过程中的铜和镍阳极板中铜、镍、铁和钴的化学物相分析方法作了介绍。

    The methods of chemical phase analysis of nickel , copper , iron and cobalt in copper and nickel anode plates used in nickel metallurgical process have been established .

  18. 通过比较国内外现行从镍电解阳极液中除铜的各种方法,提出了一种新的除铜方法:将阳极液中的Cu还原后再进行离子交换除铜。

    A new method for copper removal from nickel anodic electrolyte is studied with ion exchange after its deoxidization by comparing all kinds of ways for copper removal at home and abroad .

  19. 研究了铜与1-(2-吡啶偶氮)-2-萘酚(PAN)的显色反应,建立了测定硫酸阳极氧化液中铜的新方法。

    The color reaction conditions of Cu 2 + and 1 - ( 2-pyridylazo ) - 2-naphthol ( PAN ) were researched , and a new method was developed for the determination of copper in sulfuric acid anodizing liquor .

  20. 用离子交换法从镍电解阳极液中除铜的研究

    Copper Removal from Nickel Anodic Electrolyte by Ion Exchange

  21. 1-(2-吡啶偶氮)-2-萘酚分光光度法测定硫酸阳极氧化液中铜

    Spectrophotometric determination of copper in sulfuric acid anodizing liquor with 1 - ( 2-pyridylazo ) - 2-naphthol

  22. 目前碲主要来源于铜阳极泥,研究铜阳极泥中碲的回收与提纯具有重要的价值与现实意义。

    Tellurium comes mainly from copper anode slime . It is very valuable to study on recovery and preparation of tellurium .

  23. 分析了回转式阳极炉风口位置对炉内燃烧状况和阳极铜质量的影响,确定了阳极炉风口位置的合理范围,实践证明效果显著。

    It makes the analysis on the effect of tuyere position of rotary on combustion condition in the furnace and anode copper quality and defines reasonable range of anode furnace tuyere . The practice proves the effect is obvious .