A. Bergqvist scite author profile

Abstroct-Magnetostrictivematerials a r e known to have hysteresis with respect to both magnetic field H and mechanical stress 6. Also, the order in which H and (T are applied is sometimes significant. This paper proposes one generalization of the classical Preisach model in which these properties are handled by treating a combination of H and 6 as an effective field H e (H ,o). The classical Preisach model can thus be generalized to M ( t ) = II p(a,p) rap H, (~( t ) , o ( t ) , a ,~) d a d~ -H , S f k a l H , I H e also depends on a and p. In this paper, the function H e (H ,o,a,p) will be assumed to have a certain simple form. I t Is shown that all necessary parameters can then be determined from a comparatively small number of experiments and that the above expression can be reduced to a single integral. T o test the validity of the model , experiments where the two components H and d have been varied in many different ways have been performed on Terfenol-D and compared to results computed from the model. Some of these results are presented in the paper.This stress-dependent model is found to have an accuracy comparable to that of the classical Preisach model.

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Improved Vector Play Model and Parameter Identification for Magnetic Hysteresis Materials

Lin

Zhou

Bergqvist

2014

IEEE Trans. Magn.

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A. Bergqvist

Magnetic vector hysteresis model with dry friction-like pinning

A simple vector generalization of the Jiles-Atherton model of hysteresis

Preisach modeling of magnetostrictive hysteresis

A stress-dependent magnetic Preisach hysteresis model

Improved Vector Play Model and Parameter Identification for Magnetic Hysteresis Materials

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