1) corona field intensity
电晕场强度
2) corona intensity
电晕强度
1.
Accordingly,the influence of corona intensity on the trap characteristics of HTV silicone rubber was investigated.
为此,采用热刺激电流(TSC)技术对HTV硅橡胶在不同电晕强度老化后的陷阱特性进行了系统的试验研究,同时观测了硅橡胶在相应老化阶段表面形态的变化。
3) corona inception field strength
电晕起始场强
4) peak corona intensity
峰值电晕强度
5) electric field strength
电场强度
1.
The influence to ADSS cable of electric field strength;
电场强度对ADSS光缆的影响
2.
Calculation for maximum electric field strength within cover contact;
触头盒内最大电场强度的计算
3.
When the electric field strength was changed from 100 V/cm to 375 V/cm,the mobility was varied as a complex function of fragment size and electric field.
改变电场强度100~375V/cm,得到的迁移率曲线与电场强度和DNA片段长度成复杂的函数关系,已有的经典理论模型:Ogston模型、Reptation无拉伸模型和Reptation拉伸模型都不能正确地描述实验观察到的迁移率随电场强度和DNA片段长度的变化情况。
6) Electric-field intensity
电场强度
1.
The electric-field intensity inside and outside of the spherical cavity in polarized homogeneous dielectric are recalculated by use of Laplace equation, and the conclusion are different from those in some textbooks.
运用拉普拉斯方程对均匀极化电介质被挖出一个球形空腔的内、外电场强度进行了新的运算,得到了与一些教材不同的结论。
2.
By using the theory of complex variable function and conformal transformation, the cross-section of two parallel columns are converted into the cross-section of two parallel plates, and the capacity, electric potential and electric-field intensity of the two parallel columns per unit length are calculated.
运用复变函数、保角变换等理论,把横截面为两平行圆柱变换成横截面为两平行板,计算出两平行圆柱单位长度的电容、电势和电场强度。
3.
Electric-field intensity acting on dielectric and the operation temperature of dielectric are the main factors stressing on the power capac itors.
影响电力电容器的使用寿命的主要因素即作用在介质上的电场强度和介质的运行温度。
补充资料:电晕
又称“电晕放电”。导体表面及其附近出现辉光并伴有咝咝声的放电现象。由于高压使气体或液体介质电离而产生。能引起电能损耗,并对通信和广播有干扰。但可用于静电除尘、污水处理、空气净化等方面。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条