石墨电极

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  • graphite electrode
石墨电极石墨电极
  1. EDM石墨电极的快速研磨制造

    Rapid grinding of graphite electrode used for electrical discharge machining

  2. 基于RP技术的石墨电极研磨成形机控制系统开发与研究

    Development and Research of Digital Control System on Graphite Electrode Abrading Tool

  3. 石墨电极在PC系电解液中的嵌锂行为

    Lithium insertion behavior of graphite electrode in PC based electrolytes

  4. 加弧辉光渗Ti在石墨电极上的应用

    Application of Arc-added Glow Discharge Ion Titanizing to Graphite Anode

  5. 石墨电极加弧辉光渗镀Ti抗蚀性能的研究

    Study on Corrosion Resistance of Graphite Anode by Arc-added Glow Discharge Ion Titanizing

  6. 石墨电极在SEM下的特征

    Characterization of graphite electrodes by SEM

  7. EDM石墨电极快速研磨成型研具的开发研究

    Development and research of tool using to rapidly make EDM graphite electrodes

  8. 石墨电极电火花加工非导电陶瓷SiO2实验研究

    Research on Machining Insulated Ceramics SiO_2 in EDM by Graphite Electrode

  9. 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

  10. 用电化学、光谱电化学和顺磁共振谱等方法对维生素B2在粗热解石墨电极上的电化学还原机理进行了表征。

    The electroreduction of vitamin B2 ( VB2 ) on rough pyrolytic graphite electrode ( RPGE ) was characterized by cyclic voltammetry , spectroelectrochemistry and electron spin resonance spectroscopy .

  11. 基于CAN-bus的石墨电极生产过程参数监测系统

    Process Parameters Monitoring System of Graphite Electrode Production Based on CAN-bus

  12. 以氯化十六烷基吡啶(PC)滴定剂,用涂膜石墨电极为指示电极,甘汞电极为参比电极。

    Cetylpyridinium chloride ( CPC ) solution is used as titrant . Smear membrane graphite electrode and calomel electrode are used as indicator electrode and reference electrode .

  13. 以聚苯胺薄膜修饰石墨电极为基体电极,将含有电活性物质硅钨酸的聚氯乙烯(PVC)敏感膜涂渍于基体电极上,制成双膜尼古丁电位型传感器。

    It is made up of polyaniline modifier , graphite electrode and polyvinyl chloride sensitive membrane , with silicon-tungsten acid being the electroactive material .

  14. 石墨电极重复频率XeCl激光器的研究

    Studies on a pulsed XeCl excimer laser with graphite electrodes

  15. SLP法在石墨电极厂总平面布置中的应用

    Application of SLP method in general layout of graphite electrode plant

  16. GB/T3074.4-1982石墨电极热膨胀系数(CTE)测定方法

    Method for the determination of the coefficient thermal expansion of graphite electrodes

  17. 1辣根过氧化物酶(HRP)修饰石墨电极的制备及H2O2的灵敏检测H2O2的快速、准确检测是研制本文设计的有机磷农药酶传感器的重要基础。

    The development of the graphite electrode modified HRP and the detection of H_2O_2The rapid precise detection of H_2O_2 is the important foundation of the organ phosphorus pesticide biosensor .

  18. 用琼脂糖(Agarose)将过氧化氢酶(Cat)固定在热裂解石墨电极表面,制备了Catagarose膜修饰电极。

    Cat-agarose film modified edge-plane pyrolytic graphite electrode ( EPG ) was made by entrapping catalase ( Cat ) in agarose hydrogel at the EPG surface .

  19. 因此,提高BI含量和降低氮含量可以既不改变软化点而又增加石墨电极用粘结剂沥青的结焦率。

    Therefore increasing the BI content and decreasing the nitrogen content increases coke yield without any change in the softening point of binder pitches for graphite electrodes .

  20. DGT溶液浸渍石墨电极防氧化机理

    Oxidation & Resistant Mechanism of Graphite Electrodes Steeped with DGT Solution

  21. 实验表明,在槽电压V相同时,铁电极的电流密度大于石墨电极,远大于铝电极。

    It is found that the current density through iron electrodes is larger than that through graphite electrodes and much larger than that through aluminium electrodes when the tank voltage is the same .

  22. 在石墨电极内加入适量Fe,C60产率可达到40%。

    Normally , if an amount of Fe has been added into the graphite electrode , the productivity of C 60 can be raised to 40 % .

  23. 在弱酸性和中性介质中,无论铂片电极还是石墨电极,溶液PH值的变化都对肾上腺素电氧化生成肾上腺素红的表观速率常数人。s有明显影响。

    In the medium of weak acid and neutral solution , the apparent rate constant of the electrochemical oxidation of adrenaline to adrenochrome was affected apparently with changing the solution pH value on graphite and platinum electrode .

  24. 论述了SF6-H2化学激光器小电阻性石墨电极的用途。

    The use of a resistive graphite cathode in an SF_6-H_2 chemical HF laser is described .

  25. HP、UHP石墨电极生产要素为原料、装备、工艺、管理4项;

    Addressed in much detail are the factors involved in the production process of HP and UHP graphite electrodes including raw material , equipment , technological management ;

  26. DGT溶液浸渍石墨电极的应用

    Application of DGT solution impregnated graphite electrode

  27. 本论文分为三章,作者的主要贡献如下:(1)采用电化学方法,将不同阴离子掺杂的PANI修饰到石墨电极上。

    The main contributes of author are summarized as follows : ( 1 ) PANI films with different dopants were electrochemically synthesized on graphite electrodes .

  28. 联氨在d-过渡金属配合物MTP(o-NO2)TBP修饰石墨电极上的催化氧化研究

    Studies on Catalytic Electro-oxidation of Hydrazine on Modified Graphite Electrode by Coordination Compounds of d-Transition Metals with TP (ο - NO_2 ) TBP

  29. 对石墨电极在PC系电解液中的首次充放电研究表明:随着电解液中DMC含量的增加,电池首次充放电的不可逆容量减小。

    The initial charge-discharge behavior of graphite electrode in PC based electrolyte was studied . It was found that the initial charge-discharge irreversible capacities of the batteries decreased with the increasing of DMC content in electrolyte .

  30. 结果表明,与普通石墨电极相比,MnO2(50%)/MWCNTs阳极具有更好的润湿性和动力学活性。

    Results showed that the MnO2 / MWCNTs anodes had a better wettability and greater kinetic activity than the plain graphite anode .