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Computational modeling of magnetic hysteresis with thermal effects

Author

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  • Kružík, Martin
  • Valdman, Jan

Abstract

We study computational behavior of a mesoscopic model describing temperature/external magnetic field-driven evolution of magnetization. Due to nonconvex anisotropy energy describing magnetic properties of a body, magnetization can develop fast spatial oscillations creating complicated microstructures. These microstructures are encoded in Young measures, their first moments then identify macroscopic magnetization. Our model assumes that changes of magnetization can contribute to dissipation and, consequently, to variations of the body temperature affecting the length of magnetization vectors. In the ferromagnetic state, minima of the anisotropic energy density depend on temperature and they tend to zero as we approach the so-called Curie temperature. This brings the specimen to a paramagnetic state. Such a thermo-magnetic model is fully discretized and tested on two-dimensional examples. Computational results qualitatively agree with experimental observations. The own MATLAB code used in our simulations is available for download.

Suggested Citation

  • Kružík, Martin & Valdman, Jan, 2018. "Computational modeling of magnetic hysteresis with thermal effects," Mathematics and Computers in Simulation (MATCOM), Elsevier, vol. 145(C), pages 90-105.
  • Handle: RePEc:eee:matcom:v:145:y:2018:i:c:p:90-105
    DOI: 10.1016/j.matcom.2017.03.004
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