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1)  vertical electric field
纵向电场
1.
The vertical electric field of the buried layer is enhanced due to the low k(permittivity) of the dielectric buried layer at the drain side,the electric field in the drift region is modulated by the compound dielectric layer with different k .
CDL SOI结构利用漏端低k(介电常数)介质增强埋层纵向电场,具有不同k值的复合介质埋层调制漂移区电场,二者均使耐压提高。
2.
The vertical electric field of the buried layer and the vertical breakdown voltage are enhanced due to the low dielectric constant.
基于电位移连续性原理,利用低k提高埋层纵向电场和器件纵向耐压,并在此基础上提出SOI的介质场增强原理。
3.
The charges make the vertical electric field of the buried oxide in-crease fromabout 3ESi ,Cto the critical breakdown electric field of Si O2.
该结构在槽内产生随漏极电压变化的界面电荷,此电荷使埋氧层纵向电场从传统的3ESi,C升高到接近Si O2的临界击穿电场ESi O2,C;另外,硅窗口将耗尽层引入衬底,因而提高了器件的击穿电压。
2)  Longitudinal components of electromagnetic fields
纵向电磁场分量
3)  longitudinal magnetic field
纵向磁场
1.
Effect of longitudinal magnetic field on microstructure and properties of MIG weld joint of mild steel;
纵向磁场对低碳钢MIG焊焊缝组织及性能的影响
2.
Effect of applied longitudinal magnetic field on the properties of overlaying weld metal;
外加纵向磁场对堆焊层金属性能的影响
3.
Effect of longitudinal magnetic field on splatter in CO_2 short-circuit transfer arc welding;
外加纵向磁场对CO_2焊短路过渡飞溅影响的研究
4)  longitudinal magnetic
纵向磁场
1.
Analyses of process of MIG droplet transfer with longitudinal magnetic
纵向磁场作用下MIG焊熔滴过渡过程的分析
2.
On the basis of measuring gas tungsten arc welding (GTAW) the arc electrical current density distribution with a probe method, the new expression of body force and model of LD10CS aluminum alloy weld pool were put forward in GTAW with additional longitudinal magnetic field controlling.
在惰性气体保护钨极电弧焊接 (GTAW)过程中 ,引入纵向磁场焊接 。
3.
A non-singular single integral mathematical model is adopted to calculate the external intermittent and alternative longitudinal magnetic field acquired by single axisymmetrical and cylindrical hollow coil t which is coaxial to electrode and excitated by a revisable pulsed current of square wave t in austenitic stainless steel GTA welding.
针对奥氏体不锈钢外加纵向磁场的气体保护钨极电弧焊接(GTAW)时,与电极同轴的单个轴对称空心圆柱线圈在双向脉冲矩形励磁电流作用下产生的间歇交变纵向磁场,采用无暇点单积分磁场的数学模型,对*TAW焊接外加间歇交变纵向磁场进行了数值计算,该方法具有模型简单、计算速度快和精度高等优点并讨论了该间隙交变纵向磁场的分布、磁场的均匀性及其纵向分量与径向分量的比率等规律及其对焊接行为的影响,认为横磁分量将削弱GTAW外加纵向磁场的有利作用,影响磁控电弧的焊接质量。
5)  axial magnetic field (AMF)
纵向磁场
1.
Influence of design parameters on axial magnetic flux density distribution, distribution of eddy current on contact plate, phase difference and conductor resistance for 1/2, 1/3 and 1/4 turns axial magnetic field (AMF) electrode of vacuum interrupters has been investigated and analyzed.
分析了1/2、1/3和1/4匝纵向磁场真空灭弧室触头设计参数对纵向磁感应强度分布、触头片上涡流分布、纵向磁场滞后时间以及导体电阻值的影响。
2.
Axial magnetic field (AMF) contacts can prevent the vacuum electric arc from shrinking in the vacuum interrupters.
在大电流水平下真空电弧的收缩特性取决于触头的材料和工作原理,在真空灭弧室中纵向磁场(AMF)触头能够阻止真空电弧收缩。
6)  axial magnetic field
纵向磁场
1.
Effects of axial magnetic field on density and voltage noise of vacuum arc charged particle;
纵向磁场对电弧带电粒子密度和电压噪声的影响
2.
Comparison of axial magnetic field characteristics of 5 axial magnetic field vacuum interrupter contacts;
五种纵向磁场真空灭弧室触头磁场特性分析比较
3.
Seven contact parameters of cup-type axial magnetic field(AMF),such as coil thickness,quantities of slots,etc.
采用正交设计方法对杯状纵磁触头的杯厚、杯指数等7个触头设计参数进行实验设计,用三维有限元方法对实验方案进行磁场特性分析,其中磁场特性包括纵向磁感应强度、纵向磁场滞后时间以及导体电阻值。
补充资料:L2工业纯铝360℃热轧板中心区域纵向组织


L2工业纯铝360℃热轧板中心区域纵向组织


  L2工业纯铝560。0热轧板中心区域纵向组织
  
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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