阳极质量直接影响阳极电流密度的提高及电解系列强化电流;
The quality of the anode has direct influence on the density and efficiency of the electric current in the cell.
探讨了阳极电流密度、抛光温度、抛光时间和搅拌方式对抛光质量的影响。
The influence of anode current density, polishing temperature, polishing time and stirring modes on polishing quality was discussed.
模拟溶液各离子含量成倍增加后,退化珠光体的阳极电流密度升高,电化学交流阻抗值降低,局部腐蚀效应增大。
As the ion contents of the soil simulation solution doubled, the anodic dissolution of degenerated pearlite increases, and the local impedance of the electrode decreases.
研究结果得出,预焙阳极的炭阳极消耗随阳极电流密度的增加而趋向于理论消耗110%左右。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。
The measured results indicated that the carbon consumption of a prebaked anode decreased slightly with increasing anode current density towards a value of about 110% of the theoretical consumption.
讨论了质子交换膜燃料电池运行电流密度和温度、阴极和阳极加湿温度、气体扩散层孔隙率等参数对以上结果的影响。
The effect of the current density and fuel cell temperature, humidified temperature of cathode and anode, porosity of porous diffusion layer on the results mentioned above are discussed.
电铸阳极的形状和位置决定了阴极表面电流密度的分布,并最终影响金属沉积层分布的均匀性及其材料性能。
In the electroforming process, the anode electrode shape and position determine the current density distribution on the cathode and so the distribution and properties of the deposited metal.
实现除雾高效化,关键在于研制高性能的新型阴极线和阳极管,提高电流密度和电场强度。
To realize the high efficiency of dernisting, thenew type cathode wires and anode tubes with superperformance were developed for increasing the current density and field intensity.
从电化学理论上讨论了阴极、阳极过电位与电流密度的关系。
The authors discussed the relationship that the overvoltage of cathode and anode are varied with the current density in terms ofthe electrochemistry.
在电铸过程中,电铸阳极的轮廓和位置决定了阴极表面电流密度的分布,并最终影响电铸层的均匀性。
During the electroforming, the current density distribution on the cathode surface is decided by the anode profile and its position, which will influence the uniformity of the deposit finally.
对直流TIG电弧阳极板表面电流密度的测量方法——分离极板法和探针(自制)法进行了分析比较。
The measuring methods of D C TIG welding arc anode sheet surface current density split sheet method and probe (made by ourselves) method were analysed and compared.
阳极电流效率随交流电流密度的逐步增大而明显下降。
The current efficiency of the anode significantly dropped with the increasing ac density.
液膜厚度减小,7B04铝合金阴极极化电流密度增加,阳极反应受到抑制;
With the decrease of film thickness, the cathodic polarization current density of 7B04 Al-alloy increases, and the anode reaction is suppressed.
电镀工艺参数主要包括电流密度、温度、PH值、搅拌、阴阳极和换向电流等因素,其中影响最大的是电流密度。
Electroplating technological parameter includes factors of ampere density, temperature, PH value, stir, negative and positive pole. The maximum influencing factor is ampere density.
探讨了温度、电流密度、电解时间、阴阳极面积比等对电流效率的影响。
The effects of temperature, current density, electrolytic time and the proportion of cathod's area to anode's area on current efficiency was also studied.
结果表明:不同电流密度时,都可在阳极表面观察到细小电火花。
The results showed that a multitude of small sparks covered the entire surfaces of the samples at applied constant current densities.
介绍了电参数如频率、占空比、电流密度、终电压等的概念,推导了占空比与电流密度的关系,并综述了电参数对阳极氧化膜性能影响的研究进展。
Concepts of some electric parameters such as frequency, duty cycle, current density and final voltage were introduced and the relation between duty cycle and current density was deduced.
通过阳极极化曲线的测定,找出了络合剂游离量和搅拌与阳极临界钝化电流密度的关系;通过霍尔槽试验确定了最佳阴极电流密度范围。
Dependence of anode critical passivation current density on concentration of free complexing agent and agitation was discovered through the measuring of anodic polariza…
通过阳极极化曲线的测定,找出了络合剂游离量和搅拌与阳极临界钝化电流密度的关系;通过霍尔槽试验确定了最佳阴极电流密度范围。
Dependence of anode critical passivation current density on concentration of free complexing agent and agitation was discovered through the measuring of anodic polariza…
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