石墨阳极

  • 网络graphite anode
石墨阳极石墨阳极
  1. 一种新型改性试剂&Fenton试剂被加到石墨阳极上。

    A new modified reagent-Fenton reagent was added to the graphite anode .

  2. 稀土熔盐电解石墨阳极的腐蚀与保护

    Corrosion and Protection of Graphite Anode for Rare Earth Molten Salt Electrolysis

  3. 通过SEM和电子探针分析,提出了钙熔盐电解过程石墨阳极的破损机理。

    With the analysis of SEM and electron probe , the destroying mechanism is put forward .

  4. 石墨阳极上的双电层电容在600-950μF·cm~(-2)之间,用这些数据讨论了阳极反应机理的控制步骤。

    The double layer capacitance was found to be in the range from 600 to 950 μ F · cm ~ ( - 2 ) . These experimental data were used to discuss the rate-determining step in the anode reaction mechanism .

  5. 应用半经验分子轨道计算绝对速率理论,研究了乙烯和丙烯碳酸酯(EC,PC)分解的反应机理,推断了丙烯碳酸酯在石墨阳极上反常分解行为。

    In order to understand the anomalous decomposition behavior of propylene carbonate ( PC ) on a graphite electrode , the reaction mechanism for the decomposition of propylene and ethylene carbonate ( EC ) was studied by means of absolute rate theory with semi empirical molecular orbital calculations .

  6. 关于次深井石墨阳极地床施工技术

    The Construction Engineering of Second - Deep Well Anode Grounding Beds

  7. 天然石墨阳极在室温离子液体电解液中的电化学性质

    Electrochemical Properties of Natural Graphite Anodes in Room Temperature Ionic Liquid Electrolyte

  8. 钙熔盐电解过程中石墨阳极保护涂层研究

    Study on the Protection Coating on Graphite Anode in Calcium Molten Salt Electrolysis

  9. 氯碱工业隔膜槽用石墨阳极的现状与前景浅析

    Review on present situation and the future of graphite anode used in cells of chlorine-alkali industry

  10. 电子管石墨阳极

    Graphitic Anode of Electron Tube

  11. 提出了石墨阳极生产应维持现有生产能力,进一步提高质量的设想。

    It is proposed that tbe production present capacity of Graphiteanode shall be kept and the quality of graphite anode shall be promoted .

  12. 分析了钙熔盐电解过程石墨阳极消耗的两个因素,即主要有氧化消耗和物理破损。

    The consumption of the graphite anode in the calcium molten salt electrolysis process is analyzed , which includes oxidation consumption and physics damage .

  13. 理论上说,硅阳极电池要比石墨阳极的好,但不稳定,电池会破裂,也就不中用了。

    In theory , a silicon anode would make a better battery than graphite , but its not stable . Cracks form , and the battery degrades .

  14. 本文叙述了氯碱工业生产技术现状与发展方向。分析了氯碱工业用石墨阳极当今与将来的需求量。

    Our article described present situation and the future of technique of chlorine-alkali industry and analyzed needed quantity of graphite anode by the chlorine alkali for today and the future .

  15. 阴极保护系统在采用深井作为阳极地床时,以往使用较多的是石墨阳极或高硅铸铁阳极,但其存在很多弊端。

    Graphite anode or Duriron anode ( high silicon castiron anode ) is more often used in deep well ground bed for cathodic protection , but they have some shortcomings .

  16. 通过对石墨阳极极化曲线的研究,阐明了矿浆电解法在酸性氯盐介质中的阳极反应机理;

    Mechanism of anode reactions in Slurry Electrowinning Process ( SEP ) in the HC1-NaCl-H2O system has been clarified based on the study of polar-ization curves of graphite anode under different conditions .

  17. 与用点阴极电注入主要不同之处在于,此处所用阳极只是一个点阳极,而不是石墨阳极阵列。

    The main difference between the electrolytic colorations by using the pointed anode and the pointed cathode is that herein there is only one pointed anode and does not a graphite anode matrix .

  18. 针对天然石墨阳极存在的首次充放电效率低这一应用问题,提出了采用聚合物表面修饰石墨的新方法。

    A new approach was proposed to modify the surface structure of natural graphite by use of polymer adsorption and thereby to improve the initial charge-discharge efficiency of natural graphite anode in Li-ion battery .

  19. 石墨阳极消耗随电流密度增加而略有提高,其范围在135~150%之间。石墨阳极相对于理论的过多消耗主要是由于阳极气体逸出和电解质的搅动引起的。

    For a graphite anode a slight increase was observed , and the consumptions were higher in the ravage 135 ~ 150 % , and the gas evolution and electrolyte stirring may be the main reason for the excess anode consumption .

  20. 与石墨阳极(34.1mW/m2)相比,磺化聚苯胺、磺化聚苯胺锰酸盐复合阳极、磺化聚苯胺钒酸盐复合阳极的最大输出功率密度分别为129.1140.6Ω和187.1mW/m2。

    Compared with the pure graphite anode ( 34.1mW / m2 ), sulfonated polyaniline , sulfonated polyaniline / manganate composite , and sulfonated polyaniline / vanadate composite give the maximum output power density with 129.1 , 140.6 , and 187.1 mW / m2 , respectively .

  21. 以不锈钢为阴极,石墨为阳极,pH为7.50时,Ba2+平均去除率为54.67%,COD平均去除率为84.91%。

    When stainless steel is taken as negative pole , graphite as positive pole , and the pH is 7.50 , the average Ba2 + removal rate is 54.67 % and the average COD removal rate is 84.91 % .

  22. 石墨纤维阳极氧化表面处理的研究

    Studies of anodic oxidative surface treatment of graphite fibers

  23. 微晶石墨作为阳极材料对二次锂离子电池电化学性能的影响

    The effect of crystalline graphite as anode materials on the electrochemical properties of secondary lithium ion battery

  24. MWNT-石墨糊电极阳极溶出伏安法测定铅

    Determination of Pb at a MWNT-Carbon Paste Electrode by Anodic Stripping Voltammetry

  25. 二氧化碳修饰天然石墨锂离子阳极

    Li + Anode of Natural Graphite Modified by CO_2 Atmosphere

  26. 用含有铁族金属硫化物的复合石墨棒作阳极,在氢气氛围下实施电弧放电,制备出了双壁纳米碳管。

    Using the composite graphite rods with the sulphide of iron group metals as anode , the double-wall carbon nanotubes have been fabricated by arc discharging under hydrogen atmosphere .

  27. 煤沥青焦化所生产的沥青焦主要用于生产石墨电极、阳极糊或预焙电极,亦可用于高炉降低所用冶金焦的灰分和硫分,也可作为低污染燃料使用,具有较高经济价值。

    Coke made from coal-tar pitch is used in the manufacture of graphite electrodes , anode slurry pre-roasted electrodes and open-hearth furnaces to decrease the ash and sulfur contents of metallurgical coke , and also used as low-pollution fuel . Pitch coke has high economic values .

  28. V(IV)在石墨电极上的阳极氧化动力学

    Study of the kinetics of anodic oxidation on graphite electrode for V ( IV ) in sulfuric acid solution

  29. 对3000A钕电解槽的阳极结构做了改进,用多根石墨棒组成的阳极代替筒状阳极进行了降低钕中碳含量的研究。

    A graphite tube anode in the 3000 A electrolytic cell was replaced by the multiple graphite rod anode to study the decrease in the carbon content in electrolytic neodymium metal .

  30. 使用锌、石墨两种单阳极和锌铁联合阳极、锌石墨联合阳极,镀层中铁含量均在8%~10%之间变化。

    The iron content of the coating varied between 8 % and 10 % by using zinc anode , graphite anode , and dual anode systems .