inducing charge meaning in Chinese
感应电荷
施感电荷
Examples
- Filed - induced charged - device model test method for electrostatic discharge withstand thresholds of microelectronic components
微电子元件静电放电容许阈的场感应带电设备模型试验方法 - Abstract : in this paper the induced charge distribution on a spherical petroleum tank due to lightning is calcuated with analytical method , and that on a cylindrical petroleum tank is calculated with charge simulation method ( csm ) . furthermore , the protecting behavior of the lightning rod on the cylidrical tank is calculated and tested respectively
文摘:本文用解析法计算了雷电先导在球形贮油罐上的感应电荷分布,用模拟电荷法( csm )计算了雷电先导在圆柱形罐上的感应电荷分布;并对圆柱形罐上架设的避雷针的保护特性进行了计算校核和实验校核。 - First , a simple discussion for the mechanism about electrostatic atomization of the liquids has been given ; then the paper theoretically analyzed waving course , liquid drop producing course , and the liquid drop diffusing course in electrostatics atomization process . , gave an analysis about the methods about carrying charges to the liquid drop , and analyzed that liquid with high electrical conductivity can be carried charges and atomized by electric field , while the isolated liquid with low electrical conductivity can be charged fully with the soakage electrode and inducing charge methods . at last the paper designed and configured the experimental equipment , conducted the atomization experiment to the three liquid medium - kerosene , emulsifier and alcohol under the same environment , handled the experimental results , then summarized the relationship between liquid electrostatic atomization effect and liquid surface tension , electronic conductivity and viscosity , along with the influence of voltage to electrostatic atomization and so on , found out the liquid atomization rule in high voltage electrostatic field
首先,对液体介质的静电雾化机理作了初步的探讨,理论上分析了液体雾化过程中射流区、波纹区、雾滴区和雾滴扩散区;然后对液体荷电方法进行了研究分析,对于高电导率的液体,场致荷电和接触荷电可以使其雾化,而对于电导率较低的绝缘液体,需用浸润电极荷电和感应荷电方法使其充分带电;最后,根据前面的研究分析,设计和组装试验装置,在同一环境下对煤油、乳化剂、酒精三种不同液体介质进行高压静电雾化试验,并对试验结果进行分析处理,总结出液体静电雾化与液体表面张力、电导率和粘度的关系及电压对液体静电雾化的影响等,得出高压静电场中液体雾化的一般规律。