Design considerations of electric motors with soft magnetic composite cores

Youguang Guo, Jianguo Zhu, Haiyan Lu, G. Lei
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引用次数: 3

Abstract

Soft magnetic composite (SMC) materials possess many unique properties, which are particularly suitable for development of novel structure electric motors for various electric drive systems. The unique properties of SMC material include three-dimensional (3-D) magnetic and thermal isotropy, very low eddy current loss, and prospect of very low cost mass production. Therefore, the application of SMC materials in electrical appliance, particularly in electric motors, has attracted great interest in research. However, SMC materials also have some drawbacks, e.g. low permeability, high hysteresis loss and low mechanical strength, and hence a direct replacement of electrical steels by SMC would not necessarily lead to satisfaction or improvement of motor performance. To fully explore the application potential of the SMC materials, their unique properties should be fully employed and at the same time the effects of their drawbacks should be avoided or minimized. This paper aims to present some key issues on design of SMC electric motors based on the extensive research in the past two decades by various researchers including the authors of this paper. The key design issues are discussed and some conclusions are drawn for future effort in this area.
软磁复合磁芯电动机的设计考虑
软磁复合材料(SMC)具有许多独特的性能,特别适合于开发用于各种电力驱动系统的新型结构电动机。SMC材料的独特性能包括三维(3-D)磁性和热各向同性,极低的涡流损耗,以及极低成本量产的前景。因此,SMC材料在电器尤其是电机中的应用引起了人们极大的兴趣。然而,SMC材料也有一些缺点,例如低磁导率,高磁滞损耗和低机械强度,因此SMC直接取代电工钢不一定能满足或改善电机性能。要充分挖掘SMC材料的应用潜力,既要充分利用其独特的性能,又要避免或尽量减少其缺点的影响。在包括本文作者在内的众多研究者近二十年来的广泛研究的基础上,本文旨在介绍SMC电机设计中的一些关键问题。讨论了关键的设计问题,并对今后的工作进行了总结。
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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