Reversible Magnetization Processes Evaluation Using High-Order Magnetization Curves
Magnetics, IEEE Transactions(2013)
Abstract
The main goal of this paper is to study the reversible magnetization processes in a ferromagnetic system. A deconvolution of total magnetization into reversible and irreversible components is obtained with a new technique based on measurements performed on a few families of minor hysteresis loops (mHL) near first-order reversal curve (FORC). This mHL/FORC technique has the potential to determine the reversible/irreversible ratio in each point of the hysteresis area. We have tested the method on experimental data measured on Barium ferrite powder samples, which exhibit a significant reversible magnetization component. The results are discussed within a modified version of scalar Preisach-type model.
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Key words
barium,deconvolution,ferrites,ferromagnetic materials,magnetic hysteresis,magnetic particles,magnetisation reversal,ba,barium ferrite powder sample,forc,ferromagnetic system,first-order reversal curve,high-order magnetization curve,irreversible magnetization,mhl,minor hysteresis loop,reversible magnetization process evaluation,scalar preisach-type model,first-order reversal curve (forc),reversible magnetization
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