Magnetostriction Effect on Vibration and Acoustic Noise in Permanent Magnet Synchronous Motors

IF 7.9 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Open Journal of Industry Applications Pub Date : 2024-10-07 DOI:10.1109/OJIA.2024.3476193
Yifei Cai;Fares S. El-Faouri;Akira Chiba;Souichiro Yoshizaki
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Abstract

This study investigates the contribution of magnetostriction to vibration and acoustic noise in interior permanent magnet synchronous motors using finite element analysis and experiments on two test machines. The two motors have identical dimensions but different iron core materials. The first motor is made of 6.5% high-silicon steel 10JNEX900 with a negligible magnetostriction (0.3 ppm at 1T), and the second motor is made of amorphous iron 2605SA1 with a significantly high magnetostriction (11.0 ppm at 1T). Using finite element analysis, the electromagnetic forces, equivalent magnetostrictive forces, and resultant vibrations are compared between the two motors. The results reveal a significant counteraction between magnetostrictive vibrations and those caused by electromagnetic forces at the multiples of the sixth vibration harmonic in the amorphous iron motor. This counteraction effect was then verified experimentally. In the experiment, the amorphous iron motor exhibited similar or even lower vibrations at the multiples of the sixth harmonic but significantly higher vibrations at other harmonics. These experimental observations can only be justified by considering magnetostriction. Such experimental evidence, which has not been reported in the existing literature, highlights the importance of accounting for magnetostriction when evaluating vibration and acoustic noise in motors.
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磁致伸缩对永磁同步电机振动和声学噪声的影响
本研究通过有限元分析和两台试验机的实验,研究了磁致伸缩对内部永磁同步电机振动和声学噪声的影响。两台电机的尺寸相同,但铁芯材料不同。第一台电机由 6.5% 的高硅钢 10JNEX900 制成,磁致伸缩可忽略不计(1T 时为 0.3 ppm);第二台电机由非晶铁 2605SA1 制成,磁致伸缩明显较高(1T 时为 11.0 ppm)。通过有限元分析,比较了两个电机的电磁力、等效磁致伸缩力和由此产生的振动。结果显示,在非晶铁电机的六次谐波振动倍数处,磁致伸缩振动与电磁力引起的振动之间存在明显的反作用。这种反作用效果随后得到了实验验证。在实验中,非晶铁电机在六次谐波的倍数处表现出类似甚至更低的振动,但在其他谐波处的振动明显更高。只有考虑到磁致伸缩,才能证明这些实验观察结果是正确的。这些实验证据在现有文献中还没有报道过,突出了在评估电机振动和声学噪声时考虑磁致伸缩的重要性。
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