Fatigue Life Calculation and Mitigation of Bridge Stresses in the Rotor Core of a Delta-Shape Interior Permanent Magnet Motor

2021 IEEE Transportation Electrification Conference & Expo (ITEC) Pub Date : 2021-06-21 DOI:10.1109/ITEC51675.2021.9490186
A. Sahu, A. Abdelrahman, D. Al-Ani, B. Bilgin
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引用次数: 1

Abstract

Air flux barriers and bridges are critical rotor topology structures for better electromagnetic performance in permanent magnet machines. Rotor parts in these machines experience high and fluctuating stresses, which may lead to fatigue failure of these metal bridges. Further, the heat generated due to core losses results in thermal stresses, which append to the stresses due to centrifugal force. This paper presents a design strategy to evaluate the fatigue life of the rotor structure considering thermal and mechanical loads from a drive cycle. Moreover, the rotor topology is optimized to meet the stress limits without compromising the electromagnetic targets.
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三角型内嵌式永磁电机转子铁芯疲劳寿命计算及桥梁应力缓解
在永磁电机中,气磁屏障和气磁桥是提高转子电磁性能的关键拓扑结构。在这些机器转子部分经历高和波动应力,这可能导致这些金属桥梁的疲劳失效。此外,由于堆芯损耗而产生的热量会产生热应力,而热应力又会附加到离心力所产生的应力上。本文提出了一种考虑驱动循环热载荷和机械载荷的转子结构疲劳寿命评估设计策略。此外,在不影响电磁目标的情况下,对转子拓扑结构进行了优化,以满足应力限制。
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2021 IEEE Transportation Electrification Conference & Expo (ITEC)
2021 IEEE Transportation Electrification Conference & Expo (ITEC)
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