Influence of a Laser Irradiation and Laser Scribing on Magnetic Properties of GO Silicon Steels Sheets Using a Nanosecond Fiber Laser

European Journal of Electrical Engineering Pub Date : 2021-12-31 DOI:10.18280/ejee.230603

M. Nesser, O. Maloberti, E. Salloum, J. Dupuy, J. Fortin

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引用次数: 2

Abstract

Improving the performance of electrical steels within the magnetic circuits is essential to save energy. The domain refinement through local surface treatment by laser is an effective technique to reduce the iron losses in grain-oriented iron silicon steels. To interpret the mechanism of this technique, we have quantitatively studied the impact of nanosecond pulse laser treatment on the magnetic properties of grain-oriented Fe(3%wt)Si sheets. We measured the total power loss and apparent permeability of the samples using a Single-Sheet Tester (SST). The laser treatment resulted in a loss reduction of up to 24% compared to the average power loss of standard samples at 50 Hz. At mid-induction levels, the reduction was also accompanied by an improvement in apparent permeability. A dynamic magnetic behavior law was used to identify a dynamic property Λ including information on density, surface area and wall mobility and another internal permeability property µ representative of static field and magnetization characteristics. Lastly, we presented the behavior of these properties under different laser treatment.

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纳秒光纤激光辐照和激光刻划对氧化石墨烯硅钢磁性能的影响

提高磁路内电工钢的性能对节约能源至关重要。激光局部表面处理区域细化是降低晶粒取向铁硅钢铁损的有效方法。为了解释这一技术的机理，我们定量研究了纳秒脉冲激光处理对晶粒取向Fe(3%wt)Si片磁性能的影响。我们使用单片测试仪(SST)测量了样品的总功率损耗和表观渗透率。与标准样品在50 Hz下的平均功率损失相比，激光处理导致损耗降低高达24%。在中等诱导水平下，降低也伴随着表观渗透率的改善。动态磁行为定律用于确定动态特性Λ，包括密度、表面积和壁迁移率信息，以及另一种内部磁导率特性µ，代表静态场和磁化特性。最后给出了不同激光处理下这些性能的变化规律。

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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European Journal of Electrical Engineering

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