Modeling and Scaling of Hysteresis in Magnetic Materials. Frequency,   Pick of Induction and Temperature Dependence

Krzysztof Z. Sokalski

arXiv:1510.06635·physics.gen-ph·October 23, 2015

Modeling and Scaling of Hysteresis in Magnetic Materials. Frequency, Pick of Induction and Temperature Dependence

Krzysztof Z. Sokalski

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TL;DR

This paper extends a magnetic hysteresis model to include frequency, induction peak, and temperature effects, classifies hysteresis loops, and reveals a Zeeman-like splitting phenomenon.

Contribution

It introduces an extended hysteresis model incorporating additional physical parameters and provides a group theoretical classification of hysteresis loops.

Findings

01

Extended hysteresis model with frequency, induction, and temperature

02

Group theoretical classification of hysteresis loops

03

Discovery of Zeeman-like splitting in hysteresis loops

Abstract

Recently introduced model of magnetic hysteresis was extended into set of the following features: frequency, pick of induction and temperature of specimen. Group theoretical classification of hysteresis loops' sets is presented. An effect analogous to the Zeeman splitting has been revealed in the set of the all hysteresis loops.

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Taxonomy

TopicsMagnetic Properties and Applications · Magnetic Properties of Alloys · Microstructure and Mechanical Properties of Steels