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(1984)
Analyse par la méthode des éléments finis des phénomènes magnéto-thermiques – application aux systèmes de chauffage par induction
P. Andrei, A. Stancu, H. Hauser, P. Fulmek (2007)
Temperature, stress, and rate dependent numerical implementation of magnetization processes in phenomenological modelsJournal of Optoelectronics and Advanced Materials, 9
Yiming Shi, D. Jiles, A. Ramesh (1998)
Generalization of hysteresis modeling to anisotropic and textured materials 1 Part of this work wasJournal of Magnetism and Magnetic Materials
D. Jiles, D. Atherton (1986)
Theory of ferromagnetic hysteresisJournal of Magnetism and Magnetic Materials, 61
G. Park, S. Hahn, Ki-sik Lee, Hyun-kyo Jung (1992)
Implementation of hysteresis characteristics using the Preisach model with M-B variables, 29
A. Raghunathan, Y. Melikhov, J. Snyder, D. Jiles (2009)
Modeling the Temperature Dependence of Hysteresis Based on Jiles–Atherton TheoryIEEE Transactions on Magnetics, 45
A. Raghunathan, Y. Melikhov, J. Snyder, D. Jiles (2010)
Theoretical Model of Temperature Dependence of Hysteresis Based on Mean Field TheoryIEEE Transactions on Magnetics, 46
M. Sablik, D. Jiles (1993)
Coupled magnetoelastic theory of magnetic and magnetostrictive hysteresisIEEE Transactions on Magnetics, 29
D. Jiles, J. Thoelke, M. Devine (1992)
Numerical determination of hysteresis parameters for the modeling of magnetic properties using the theory of ferromagnetic hysteresisIEEE Transactions on Magnetics, 28
(2010)
Theoretical model of dependence of hysteresis based mean field theory
A. Ladjimi, M. Mekideche (2009)
Model for the behavior of magnetic materials hysteretic taking into account the temperature2009 6th International Multi-Conference on Systems, Signals and Devices
O. Benda, V. Áč (1967)
New approach to experimental investigation of coercivity temperature dependenceIEEE Transactions on Magnetics, 3
Thermal effects on magnetic hysteresis modeling A temperature dependent model is necessary for the generation of hysteresis loops of ferromagnetic materials. In this study, a physical model based on the Jiles-Atherton model has been developed to study the effect of temperature on the magnetic hysteresis loop. The thermal effects were included through a model of behavior depending on the temperature parameters M s and k of the Jiles-Atherton model. The temperature-dependent Jiles-Atherton model was validated through measurements made on ferrite material (3F3). The results have been found to be in good agreement with the model.
Archives of Electrical Engineering – de Gruyter
Published: Jan 1, 2012
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