Low-frequency behavior of laminated electric steel sheet: Investigation of ferromagnetic hysteresis loops and incremental permeability

•The low-frequency dependence of a ferromagnetic material is investigated.•Standard characterization methods are limited in the low-frequency range.•Magnetic incremental permeability is used to observe the low-frequency dependence.•The quasi-static threshold estimation is refined. The frequency depe...

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Veröffentlicht in:	Journal of magnetism and magnetic materials 2021-11, Vol.538, p.168278, Article 168278
Hauptverfasser:	Zhang, S., Ducharne, B., Takeda, S., Sebald, G., Uchimoto, T.
Format:	Artikel
Sprache:	eng
Schlagworte:	Core loss Electrical steels Electromagnetism Engineering Sciences Evaluation Ferromagnetic hysteresis Ferromagnetism Frequency dependence Hysteresis loops Magnetic incremental permeability Magnetic permeability Magnetic signatures Magnetization Materials Metal sheets Permeability Quasi-static behavior
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container_title	Journal of magnetism and magnetic materials
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creator	Zhang, S. Ducharne, B. Takeda, S. Sebald, G. Uchimoto, T.
description	•The low-frequency dependence of a ferromagnetic material is investigated.•Standard characterization methods are limited in the low-frequency range.•Magnetic incremental permeability is used to observe the low-frequency dependence.•The quasi-static threshold estimation is refined. The frequency dependence of ferromagnetic hysteresis and the related core losses is still an open question. From scaling relations up to space discretized and simultaneous contributions resolutions, different levels of accuracy in the estimation of these losses can be reached. Below a given frequency known as the quasi-static threshold, it is well admitted that the hysteresis cycle remains unchanged. A precise evaluation of this threshold is fundamental to simulate and evaluate precisely the magnetization behaviors under higher frequencies. But this estimation is complex, especially through the unique observation of the hysteresis cycles and because of instrumentation limitations. In this manuscript, we propose an alternative and simple method to precisely refine this threshold's estimation. By using an alternative magnetic signature known as the magnetic incremental permeability butterfly loop (μIP_(H)), improvements are proposed in observing the very low-frequency magnetization behaviors and assessing the quasi-static threshold. This work constitutes a leap forward in understanding the magnetic low-frequency behaviors of laminated electric steel sheets.
doi_str_mv	10.1016/j.jmmm.2021.168278
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The frequency dependence of ferromagnetic hysteresis and the related core losses is still an open question. From scaling relations up to space discretized and simultaneous contributions resolutions, different levels of accuracy in the estimation of these losses can be reached. Below a given frequency known as the quasi-static threshold, it is well admitted that the hysteresis cycle remains unchanged. A precise evaluation of this threshold is fundamental to simulate and evaluate precisely the magnetization behaviors under higher frequencies. But this estimation is complex, especially through the unique observation of the hysteresis cycles and because of instrumentation limitations. In this manuscript, we propose an alternative and simple method to precisely refine this threshold's estimation. By using an alternative magnetic signature known as the magnetic incremental permeability butterfly loop (μIP_(H)), improvements are proposed in observing the very low-frequency magnetization behaviors and assessing the quasi-static threshold. 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The frequency dependence of ferromagnetic hysteresis and the related core losses is still an open question. From scaling relations up to space discretized and simultaneous contributions resolutions, different levels of accuracy in the estimation of these losses can be reached. Below a given frequency known as the quasi-static threshold, it is well admitted that the hysteresis cycle remains unchanged. A precise evaluation of this threshold is fundamental to simulate and evaluate precisely the magnetization behaviors under higher frequencies. But this estimation is complex, especially through the unique observation of the hysteresis cycles and because of instrumentation limitations. In this manuscript, we propose an alternative and simple method to precisely refine this threshold's estimation. By using an alternative magnetic signature known as the magnetic incremental permeability butterfly loop (μIP_(H)), improvements are proposed in observing the very low-frequency magnetization behaviors and assessing the quasi-static threshold. 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subjects	Core loss Electrical steels Electromagnetism Engineering Sciences Evaluation Ferromagnetic hysteresis Ferromagnetism Frequency dependence Hysteresis loops Magnetic incremental permeability Magnetic permeability Magnetic signatures Magnetization Materials Metal sheets Permeability Quasi-static behavior
title	Low-frequency behavior of laminated electric steel sheet: Investigation of ferromagnetic hysteresis loops and incremental permeability
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