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Modeling and Analysis of Unbalanced Moment for an Axial-Flux in-Wheel Motor with Eccentricity |
Deng Wenzhe, Zuo Shuguang, Lin Fu, Wu Shuanglong, Mao Yu |
Clean Energy Automotive Engineering Centre Tongji University Shanghai 201804 China |
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Abstract In order to analyze the impact of static and dynamic eccentricity, a quasi-3D analytical model of air-gap magnetic field was firstly built for an axial-flux in-wheel motor (AFWM) without eccentricity, and the slotting effect and fringing effect was taken into account through complex relative air-gap permeance and correction function respectively. Then the analytical model under eccentric condition was gained by means of considering the variation of air gap length, and finite element (FE) analysis results indicate that the model can predict air gap flux density precisely at arbitrary position of the AFWM with both static and dynamic eccentricity. Finally, the effects of eccentricity on magnetic field and electromagnetic force were analyzed via the established model and the method to calculate bending moment was proposed. The results reveal that apart from unbalanced magnetic pull, eccentricity in AFWM will produce extra bending moment, which is quite different from radial-flux motor. The bending moment may cause eccentric degree further deterioration.
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Received: 22 May 2016
Published: 19 July 2017
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