1) electric moment cone
电矩圆锥
2) conic electric current
圆锥曲线电流
3) conical magnetic bearing
圆锥电磁轴承
1.
Because of the geometry coupling of the conical magnetic bearing,more parameters need to be considered in its design.
由于圆锥电磁轴承所固有的几何耦合,轴承的设计相对而言需要考虑的结构参数更多,参数间相互影响、相互制约的关系也更复杂。
2.
The geometry coupling effect and current coupling effect of conical magnetic bearings are analyzed.
分析了圆锥电磁轴承的几何耦合效应以及电流耦合效应,推导了圆锥电磁轴承特有的力矩耦合特性,给出了圆锥电磁轴承动力学特性的计算方法。
4) magnetoelectroelastic cone
磁电弹性圆锥
1.
For the problem of a magnetoelectroelastic cone under concentrated loads (include torsional moment Mz leads to torsion, concentrated force Pz and point charge Q lead to compression, concentrated force Px and concentrated moment MN lead to bending) at its apex, the potential functions were constructed by a linear composition of a group o.
当磁电弹性材料特征根互异时,用5个势函数表示的通解出发,对圆锥顶端作用集中扭矩M_z的扭转、集中力P_z和点电荷Q的压缩、集中力P_x和集中力矩M_y的弯曲变形问题,用一些调和函数的线性组合分别构造了势函数,并根据边界条件求出了势函数中的待定系数从而确定势函数,再将势函数代入通解得到磁电弹性圆锥顶端作用集中载荷时的位移、电势、磁势、应力、电位移和磁感应强度的三维解析解。
5) piezoelectric cone
压电材料圆锥
6) coniform capacitor
圆锥形电容器
1.
The two methods for calculating capacitance of aniform capacitor are presented: one is using the concept of parallel coniform capacitor and the formula of capacitors connected in parallel,the other is using the electric energy formula of capacitor electric field.
介绍求解圆锥形电容器电容的两种方法:电容器并联法和电场能量法。
补充资料:电偶极矩
| 电偶极矩 electrical dipole moment 描述电偶极子本身特征的物理量。见电偶极子。 |
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