金属阳极

  • 网络Metal Anode
金属阳极金属阳极
  1. 金属阳极电解槽的酸性盐水电解

    The electrolysis of acid brine in the electrolyzer with metal anodes

  2. 降低金属阳极电解生产工序电耗的措施

    Measure on power reduction for metal anodes electrolysis section

  3. 金属阳极溶解法制备纳米材料前驱体及纳米NiO、ZnO的制备与表征

    Anodic Dissolution of Metal for Synthesis of Precursors and Study on Preparation and Characterization of Nano-Sized NiO and ZnO

  4. Cu-Ni-Al金属阳极抗氧化耐腐蚀性能研究

    Studies on Anti-oxidation and Corrosion Resistance of Cu-Ni-Al Inert Metal Anode

  5. Cu-Ni-Al惰性金属阳极铝电解应用测试

    Cu-Ni-Al Superalloy as Inert Metal Anode for Aluminum Electrolysis

  6. 采用牺牲金属阳极法电合成TiO2前驱体&钛酸乙酯,经水解、涂膜、煅烧制备纳米TiO2膜电极;

    TiO_2 precursor , Ti ( OEt ) 4 , which was directly hydrolyzed , coated , and calcined to produce nano-TiO_2 film electrode , was electro-synthesized using sacrificial metal anode method .

  7. 低温铝电解用Cu-Ni-Cr金属阳极性能研究

    Research on the Properties of Cu-based Metal Anodes for Aluminum Electrolysis Cell at Low Temperature

  8. 用钌钛金属阳极在含有Cl和Br-离子的酸性溶液中进行电解氧化联二脲制备偶氮二甲酰胺,获得产品得率为9398%、纯度为99.6%、电流效率为88-92%。

    Azodicarbonamide has been prepared by the electrolytic oxidation of biurea in an acid solution of Cl-and Br - with a high purity of 99.6 % . The Yield is 93-98 % and the current effeciency is 88-92 % .

  9. 在无水醇体系中加入少量的导电盐及乙酰丙酮,采用金属阳极溶解法,控制电解温度在30-40℃,电合成NiO及ZnO的前驱体-金属醇盐的配合物。

    The nano-material precursors of metal alkoxides and theirs complexes are prepared by anodic dissolution of metal in non-aqueous media with a small quantity of ion-conductive additive and acetylacetonate under 3 0-40 . In the second part preparation and characterization of nano-sized NiO and ZnO are studied .

  10. 如何提高金属阳极隔膜电解的电流效率

    How to improve current efficiency of diaphragm electrolyzer with metal anodes

  11. 隔膜法金属阳极电解槽采用活性阴极技术的探讨

    Discussion on active-cathode technology appling in diaphragm cell with metal anodes

  12. 铝电解惰性金属阳极和金属&氧化铝阳极的研制与测试

    Preparation and Investigation of Metals and Metal-Al_2O_3 Inert Anodes for Aluminum Production

  13. 金属阳极钌钛涂层的研究

    Study of the Ruthenium - Titanium Coating on Metallic Anode

  14. 可致钝体系中金属阳极腐蚀行为新判据&EPR技术用于测定硫脲对不锈钢阳极腐蚀行为的影响

    A New Judgment on Anodic Corrosion Behavior in Passivation System

  15. 金属阳极表面活性及电化学特性评价

    Evaluation of surface activity and electrochemistry characteristics of metal anode

  16. 我国金属阳极隔膜法烧碱发展现状与对策

    Current status and development plan of domestic metal anode diaphragm caustic soda

  17. 国内离子膜电解法与金属阳极隔膜电解法烧碱将在相当长的时期内共存

    Domestic ion-exchange membrane caustic soda coexisting with metal-anode diaphragm in the long term

  18. 酸洗金属阳极电解槽浅析及对策

    Discussion on the acid cleaning of metal anode electrolytic cell and its countermeasures

  19. 电泳涂装过程中金属阳极的腐蚀与防护

    Corrosion and Protection of Metal Anode in Electro-Coating Process

  20. X-射线荧光分析法测定金属阳极中钌含量

    Detection of ruthenium content in the metal anode by X-ray fluorescence analysis method

  21. 钝化金属阳极中钌的回收和利用

    Gathering and Use of Ru in Blunt Metal Anode

  22. 金属阳极电解槽管理综述

    A Review on the management of metal anode electrolyzers

  23. 金属阳极电解槽生产烧碱中氯酸盐的产生及防治

    Formation and Prevention of Chlorate in Production of Caustic Soda Using Metal Anode Cell

  24. 金属阳极隔膜电槽节能降耗工作总结

    Summary on the energy conservation and consumption reduction of diaphragm electrolyzer with metal anodes

  25. 金属阳极电解槽改制的可行性分析

    Feasibility analysis of reforming electrolyzers with metal anodes

  26. 金属阳极涂层评价试验

    Evaluation test for the coatings of metal anode

  27. 金属阳极电解槽修订标准释义

    Interpretations on corrected standards of metal anode electrolyzer

  28. 金属阳极含铱中间层高氧超涂层的研究

    A Study of High Oxygen Overpotential Coating With Iridium Intermediate Layer of Metallic Anode

  29. 铝电解金属阳极上的气泡析出行为

    Bubble behavior on metal anode of aluminum electrolysis

  30. 金属阳极表面钌的回收

    Reclaiming Ru from Facies of dimensionally stable anode