运用毕奥萨伐尔定律和椭圆参数方程,计算出椭圆环电流中心的磁感强度。
The magnetic induction intensity at the center of elliptic current ring is derived based on the Biot-Savart law and elliptic parameter equation intensity.
本工作将探测到的感生电压积分,直接获得磁感强度峰值与待测应力的函数关系。
In this work, the peak value of magnetization dependence of stress can be obtained directly by integrating the inductive voltage of magnetic probe.
介绍了影响该传动方式的动力传动的主要因素:磁对的磁场强度、磁感的有效面积、磁对之间的间距。
The paper introduces the main factors that affect this transmission:magnetic-field intensity of the magnet couple, efficient area of the magnetic induction, distance of the magnet couple.
介绍了影响该传动方式的动力传动的主要因素:磁对的磁场强度、磁感的有效面积、磁对之间的间距。
The major effect factor of the power transferring has magnetic field intensity, availability area, relatively distance of a couple magnetic poles.
介绍了影响该传动方式的动力传动的主要因素:磁对的磁场强度、磁感的有效面积、磁对之间的间距。
The major effect factor of the power transferring has magnetic field intensity, availability area, relatively distance of a couple magnetic poles.
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