汞弧光放电是一种低气压气体放电现象,放电电流密度大。
The discharge of mercury arc is electric discharge phenomena of low pressure gas and the current density is great.
分别考察了气体压力、气体流量、电池温度及不同放电电流密度等条件对电池电流分布的影响。
The effects of operation conditions, such as temperature, pressure and flow rate, on current distribution were discussed.
然后由其解析解计算这种无声放电的着火特性和放电电流密度对时间的依赖关系,并与实验结果相比较。
Then, the breakdown characteristics and the de-pendence of discharge current density on time are theoretically calculated in this kind of AC silent discharge.
本文介绍作者发现在固体电解质中掺杂专属的铁氧体,制成电池中的隔膜,能使电池放电电流密度大幅度提高。
The author states in this article his discovery that cell diaphragms made of solid electrolytes mixed with metallic ferrites, can have their discharge current densities increased by big margins.
使用陶瓷纸作电极的电池也因此能够快速充电,但在高电流密度时同样会快速放电。
Batteries with ceramic paper electrodes could therefore be charged quickly, but also discharged quickly to allow for high current densities.
它产生的高气压高电流密度辉光放电等离子体能够用来制作平面等离子体显示或光源。
With the micro-discharge array, the glow discharge plasmas with high-pressure and high-current density can be formed to make DC plasma display panel.
结果表明,材料的组分含量、粒度分布、放电倍率对电流密度影响较大,对SOC状态影响较小。
The results showed that the component contents, particle size distribution, discharge rate obviously affected current density distribution, but less affected the SOC.
分别计算和分析了介质阻挡放电中电场、带电粒子浓度以及电流密度在放电空间的分布和随时间的演变过程。
The distribution in discharge space, time change of electric field intensity, electron and ion density and the current density are calculated.
分别计算和分析了介质阻挡放电中电场、带电粒子浓度以及电流密度在放电空间的分布和随时间的演变过程。
The distribution in discharge space, time change of electric field intensity, electron and ion density and the current density are calculated.
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