贮氢合金电极的表面处理是改善其电化学性能的有效方法。
The surface treatment of hydrogen storage alloy electrode is an effective method to improve its electrochemical performances.
贮氢合金的表面成分和形态对金属氢化物电极的电化学性能具有重大影响。
The surface composition and morphology of hydrogen storage alloys have an important influence on the electrochemical properties of metal hydride electrodes.
采用真空蒸镀的方法对贮氢合金电极进行了镀覆银膜的表面修饰。
The MH electrode was modified with a thin silver film using vacuum evaporate plating technology.
因而铝合金表面涂敷矿物油和BBC的混合物时,电极烧损程度较轻,电极使用寿命得到了延长。
Hence, the spot welding result of aluminum alloy with the coating mixture of mineral oil and BBC is better, and the electrode life of aluminum alloy spot welding is prolonged.
镀镍层有利于贮氢合金氢化物电极大电流放电,这种作用源于微包覆过程中氢脆引起合金颗粒的细化与表面镀层增强了电极的导电性。
The rate capability of the alloys is improved after plating, due to the fine particles formed through hydrogen crisping and the nickel layer contributed to the conductivity of electrodes.
通过控制电压、电极间距、温度等电解工艺条件,在钛合金表面沉积得到DLC膜。
DLC films can be deposited by changing technology, such as voltage, distance and temperature.
摘要通过测量表面覆铜的贮氢合金电极的交换电流密度,初步讨论了覆铜层对贮氢合金的电催化活性的影响。
By directly measuring the exchange current density, the effect of surface copper coating of metal negative electrodes on electrocatalytic activity were investigated.
本论文提出了用电化学的方法在储氢合金电极或储氢合金粉表面包覆镍-非金属非晶态合金的工艺方法。
The electrochemical techniques of encapsulating the amorphous nickel-nonmetal alloy on the surface of hydrogen-storage alloy electrode or hydrogen-storage alloy powder was used in this paper.
本论文提出了用电化学的方法在储氢合金电极或储氢合金粉表面包覆镍-非金属非晶态合金的工艺方法。
The electrochemical techniques of encapsulating the amorphous nickel-nonmetal alloy on the surface of hydrogen-storage alloy electrode or hydrogen-storage alloy powder was used in this paper.
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