Anisotropic model for the numerical computation of magnetostriction in grain-oriented electrical steel sheets
Author:
Affiliation:
1. Institute of Mechanics and Mechatronics, Vienna University of Technology, Vienna, Austria
2. Department of Sensor Technology, University of Erlangen-Nuremberg, Erlangen, Germany
3. Energy Sector, Siemens, Nuremberg, Germany
Publisher
Emerald
Subject
Applied Mathematics,Electrical and Electronic Engineering,Computational Theory and Mathematics,Computer Science Applications
Reference9 articles.
1. Delaere, K. , Heylen, W. , Hameyer, K. and Belmans, R. (2000), “Local magnetostriction forces for finite element analysis”, IEEE Trans. on Magnetics, Vol. 36 No. 5.
2. Dorfmann, A. and Ogden, R.W. (2003), “Magneto-elastic modeling of elastomers”, Eur. J. Mechanics and Solids, Vol. 22.
3. Fonteyn, K. , Belahcen, A. , Kouhia, R. , Rasilo, P. and Arkkio, A. (2010), “FEM for directly coupled magneto-mechanical phenomena in electrical machines”, IEEE Trans. on Magnetics, Vol. 46 No. 8.
4. Hauck, A. , Ertl, M. , Schöberl, J. and Kaltenbacher, M. (2013), “Accurate simulation of transformer step-lap joints using anisotropic higher order FEM”, COMPEL, Vol. 32 No. 5.
5. Kaltenbacher, M. , Meiler, M. and Ertl, M. (2009), “Physical modeling and numerical computation of magnetostriction”, COMPEL, Vol. 28 No. 4.
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