电工磁材料磁滞数学模型的研究综述

电工磁材料广泛应用于电机、变压器等电工设备中,精确模拟磁滞特性对于磁材料的设计和应用是至关重要的。磁学界对磁滞现象的研究已有近百年的历史,各国学者为此建立了各种各样的磁滞数学模型,并开发了很多改进的磁滞模型。本文从磁滞模型的起源开始,分别介绍了典型的标量磁滞模型、矢量磁滞模型和混合矢量磁滞模型的发展现状,分析了各种磁滞模型存在的问题及未来的发展趋势。不断完善的磁滞模型可以更加精确地模拟磁材料的磁滞特性,为实际工程应用提供有力的支持。

A Review of Research on Magnetic Hysteresis Mathematical Model of Magnetic Materials in Electrical Engineering

Magnetic materials in electrical engineering are widely used in electrical equipment such as motors and transformers. Accurate simulation of hysteresis characteristics is very important for the design and application of magnetic materials. The research of hysteresis phenomenon in the field of magnetism has a history of nearly one hundred years. Scholars all over the world have established various mathematical models of hysteresis and developed many improved ones. Starting from the origin of hysteresis model, this paper introduces the development status of typical scalar hysteresis model, vector hysteresis model and hybrid vector hysteresis model, and analyzes the existing problems and future development trend of various hysteresis models. The improved hysteresis model can more accurately simulate the hysteresis characteristics of magnetic materials and provide strong support for practical engineering applications.