| 1. | Uniform charged rings electric field distribution in vacuum
均匀带电园环在真空中的电场分布 |
| 2. | Calculation of electric field distribution near ehv power towers
超高压输电线路铁塔附近的三维工频电场计算 |
| 3. | The simulation and experimental study of conductance sensor ' s electric field distribution
阻抗传感器电场分布的仿真及实验研究 |
| 4. | A comparison of the electric field distribution in a cable termination with several different stress control tubes is presented
摘要利用时域有限元方法分析了含不同应力控制管时的电缆终端电场分布。 |
| 5. | A comparison of the electric field distribution in cable terminations with several different stress control tubes is investigated under impulse voltage
利用暂态有限元方法分析了含不同应力控制管时的电缆终端冲击电压下的电场分布。 |
| 6. | Through a simple example , using finite element method to analyze the electric field distribution in hv insulation structure with surface semi - conducting layer is presented
本文经过一个简单的分析实例,提出了表面含有半导电层的高压绝缘结构电场的有限元分析方法。 |
| 7. | The conclusions in this paper are as follows : ( 1 ) regarding the electric field distribution around the stations , where are in hill , or the tall buildings , so the field intensity above ground is uneven
本文的主要工作和结论如下: ( 1 )从变电站周围的电磁场强度的分布来看,变电站所处地形大多为丘陵地带和坡地。 |
| 8. | The result reveals that the stress control tube comprising a composite structure of the nonlinear resistive and capacitive material shows the best performance in improving electric field distributions in cable terminations
分析结果表明,采用由电容性和非线性电阻性材料复合绝缘结构的应力控制管时,电缆终端的电场分布最为均匀。 |
| 9. | The result reveals that the stress control tube comprising a composite structure of the nonlinear resistive and capacitive material shows the best performance in uniforming the electric field distributions in cable terminations under impulse voltage
分析结果表明,在冲击电压下电缆终端采用由电容性和非线性电阻性材料复合绝缘结构的应力控制管时,电场分布最为均匀。 |
| 10. | Meanwhile , we discuss the static electric field distribution in anisotropic materials caused by the applied voltage on the electrodes , which will help to decrease the driving voltage . finally , the device was fabricated during the course of this research
文章同时还利用fd - bpm法初步分析了各项异性材料中的电场的静态分布,为提高电场与光场的耦合因子,减小半波电压奠定基础。 |
