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1)  surface line-charge method
表面磁荷法
1.
The surface line-charge method was firstly used to calculate the magnetic field distribution in a 186 kA large prebake anode aluminum reduction cell.
应用表面磁荷法对 186 kA大型预焙阳极铝电解槽的磁场进行了三维数值计算。
2)  Magnetic surface charge
表面磁荷
3)  surface charge simulation method
表面电荷法
1.
An equivalent model for hollowing-center grounding device is proposed,the hollowing-center grounding(device) resistance is calculated with the surface charge simulation method and the computer programme is programmed based on this model.
基于空腹式接地装置自身特点和对接地电阻计算精度的要求,计算中采用了改进的表面电荷法作为电场数值计算方法,并编制了相应的计算程序。
2.
A three dimensional surface charge simulation method is improved for effective computation of stray capacitance of electric apparatus.
为了有效地求取电气设备的空间分布电容值 ,对三维空间表面电荷法进行了改进 。
3.
An improved three dimensional surface charge simulation method is developed for effective computation of stray capacitance of electric apparatus with the presence of multi-dielectrics,and the corresponding program and numerical discrete formula is analyzed in detail.
改进了三维空间表面电荷法,利用曲面单元对设备结构进行了剖分,给出了数值离散格式,对均压环对地、平板对地的空间电容数值进行了计算,并将计算结果与测量值进行了比较分析。
4)  Surface magnetic coating
表面磁种法
5)  surface magnetic charge
面磁荷
1.
In order to effectively overcome the difficulties,which are often met in magnetic field extrapolation by traditional continuation methods, a direct model for magnetic field extrapolation based on equivalent surface magnetic charge intensity was derived from the boundary theory.
为有效解决舰艇传统磁场推算方法中存在的困难,从边界元理论出发,推导了基于等效面磁荷密度的磁场推算正演模型。
6)  surface charge
表面电荷
1.
Effects of pretreatment of chrysotile by three compounds on the crystal lattice structure and the surface charge of chrysotile;
三种化合物浸泡处理对石棉晶格结构和表面电荷的影响
2.
Effect of electret on cell growth and surface charge in fibroblast cells;
驻极体对成纤维细胞生长和表面电荷的影响(英文)
3.
Experimental study on surface charge properties of sediment particles and their effect on dry-bulk density;
泥沙颗粒表面电荷特性及其对干容重影响试验研究
补充资料:磁表面记录介质
分子式:
分子量:
CAS号:

性质:磁记录材料大都是由磁层及其支持体——带基(盘基)所组成。磁层是记录实体。一切信号都记录在这一表层上,故又称其为磁表面记录介质。

说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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