Magnetic domains, energy minimisation and magnetostriction

A. Moses, P. Anderson, K. Jenkins, H. Stanbury
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Abstract

The magnetic domain structure of a magnetic material determines its magnetic properties. When the domain structure changes, perhaps due to factors such as temperature variation, mechanical stress or the presence of an external magnetic field, magnetic properties also change, in a beneficial or detrimental way. The physics controlling the formation and structure of domains, as well as the dynamics of so-called domain wall motion and domain rotation is quite well understood, but it is very complicated and difficult to apply to materials with complex metallurgical structure such as electrical steels. Magnetic domains of direct relevance to electrical steels are covered in Chapter 1 of Volume 2 of this book. In this chapter their origin and basic structures are explained.
磁畴,能量最小化和磁致伸缩
磁性材料的磁畴结构决定了其磁性能。当畴结构发生变化时,可能是由于温度变化、机械应力或外部磁场的存在等因素,磁性也会以有益或有害的方式发生变化。控制畴的形成和结构的物理学,以及所谓的畴壁运动和畴旋转的动力学是很好理解的,但它非常复杂,难以应用于具有复杂冶金结构的材料,如电工钢。与电工钢直接相关的磁畴在本书第2卷第1章中有介绍。本章阐述了它们的起源和基本结构。
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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