Steady-state Thermal Analysis of the Contact in Bearings Exposed to Electrical Currents

IECON 2021 – 47th Annual Conference of the IEEE Industrial Electronics Society Pub Date : 2021-10-13 DOI:10.1109/IECON48115.2021.9589748

O. Safdarzadeh, Martin Weicker, A. Binder

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Abstract

Electrical bearing currents, e.g. in inverted-fed electrical machines, may disturb the performance of the bearings. In this paper the steady-state temperature of the bearing surface at the electrical contact point between the balls and the raceway is derived in the mixed lubrication state. The thermal analysis is presented based on the Holm‘s electric contact model, namely the a-spot. The contact model of Andreason is presented as well for comparison. The results are extended to predict the instantaneous contact surface temperature in an axial bearing (type 51208) at 500 rpm with 1 A average bearing current and with an axial bearing force of 800 N. Moreover the average of the contact surface temperature is obtained for the same bearing in a range of operating points, i.e. a rotating speed from 0 rpm to 3000 rpm, a bearing average current from 0.25 A to 3 A, at an axial bearing force 800 N. The results can be utilized to predict the contact temperature on the bearing surface for any given bearing from the measured bearing voltage.

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暴露于电流中的轴承接触的稳态热分析

轴承电流，例如在逆变供电电机中，可能会干扰轴承的性能。本文推导了混合润滑状态下球与滚道电接触点处轴承表面的稳态温度。热分析是基于霍尔姆的电接触模型，即a点。并给出了Andreason的接触模型进行比较。将所得结果推广到预测某轴向轴承(51208型)在500转/分、平均轴承电流为1 A、轴向轴承力为800 n时的瞬时接触面温度。此外，还得到了同一轴承在不同工作点(即转速为0转/分至3000转/分、轴承平均电流为0.25 A至3 A)下的接触面温度的平均值。在800牛顿的轴向轴承力下，其结果可用于根据测量的轴承电压预测任何给定轴承的轴承表面接触温度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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IECON 2021 – 47th Annual Conference of the IEEE Industrial Electronics Society

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