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Finite element analysis of electrical machine vibrations caused by Lorentz, Maxwell and magnetostriction forces

机译：洛伦兹，麦克斯韦和磁致伸缩力引起的电机振动的有限元分析

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In order to numerically predict the stator vibration spectrum, the mechanical behaviour of the stator (for low modal density) is correlated with the force distribution inside the machine. This force distribution is found considering the coupling between the magnetic and the mechanical finite element systems. This coupling results in a finite element based force expression covering both Lorentz forces and Maxwell forces. Using a weak coupling approach, magnetostriction forces are added to the force distribution. The numerically predicted stator vibration spectrum of a synchronous machine is compared to stator surface measurements.

机译：为了从数值上预测定子的振动谱，定子的机械性能（对于低模态密度）与电机内部的力分布相关。考虑到磁性和机械有限元系统之间的耦合，可以找到这种力分布。这种耦合导致基于有限元的力表达同时涵盖洛伦兹力和麦克斯韦力。使用弱耦合方法，将磁致伸缩力添加到力分布中。将同步电机的数字预测的定子振动谱与定子表面测量值进行比较。

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《》|2000年|P.9.1-9.4|共1页
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Delaere; K.; Heylen; W.;
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中图分类无线电电子学、电信技术;
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Finite element analysis of electrical machine vibrations caused by Lorentz, Maxwell and magnetostriction forces

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