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http://dx.doi.org/10.5370/JEET.2012.7.3.336

Contribution of Maxwell Stress in Air on the Deformations of Induction Machines

Fonteyn, K.A. (Dept. of Electrical Engineering, Aalto University)
Belahcen, A. (Dept. of Electrical Engineering, Aalto University)
Rasilo, P. (Dept. of Electrical Engineering, Aalto University)
Kouhia, R. (Dept. of Structural Engineering and Building Technology, Aalto University)
Arkkio, A. (Dept. of Electrical Engineering, Aalto University)

Publication Information

Journal of Electrical Engineering and Technology / v.7, no.3, 2012 , pp. 336-341 More about this Journal

Abstract

Deformations in a cage-induction machine are investigated with simulations. The contribution of the Maxwell stress in the air gap and coil regions of the machine on the deformation is studied by comparing results obtained with and without inclusion of the stress into the calculation. The work attests the acceptability of an energy-based magneto-mechanical model for a 2D mesh of two different rotating electrical machines.

Keywords

Induction machine; Magnetoelasticity; Magnetostriction; Maxwell stress; Vibrations;

Citations & Related Records

Times Cited By Web Of Science : 5

Reference

1	A. J. M. Spencer, 1971, Theory of Invariants, Continuum Physics, Eringer A. C. (editor), Academic Press, New York, Vol. 1, pp. 239-353
2	K. Fonteyn, A. Belahcen, R. Kouhia, P. Rasilo and A. Arkkio, "FEM for directly coupled magnetomechanical phenomena in electrical machines", IEEE Transactions on Magnetics, Vol.: 46, No. 8, 2010.
3	A. Belahcen, "Magnetoelastic coupling in rotating electrical machines", IEEE Transactions on Magnetics, Vol. 41, No.5, pp.1624-7, 2005. DOI ScienceOn
4	A. Belahcen, K. Fonteyn, A. Hannukainen, R. Kouhia, "On numerical modeling of coupled magnetoelastic problem", Proceedings of the 21st Nordic Seminar on Computational Mechanics, Trondheim, 2008, T. Kvamsdal, K.M. Mathisen and B. Pettersen (editors), pp. 203-206.
5	S. Fortino, R. Kouhia, A. Belahcen, K. Fonteyn, "A coupled model for magnetostriction in ferromagnetic materials", International Conference on Computational Methods for Coupled Problems in Science and Engineering. Barcelona, Spain, 2007, pp. 483-486.
6	K. Fonteyn, A. Belahcen, P. Rasilo, R. Kouhia, and A. Arkkio "Simulated Results and Experimental Verification of a Novel Magneto-Mechanical Coupled Method", proceedings of ICEMS 2010, 10-13 October 2010, Seoul, Korea.
7	Bloch, F., 1932, "Zur Theorie des Austauschproblems und der Remanenzerscheinung der Ferromagnetika", Zeitschrift für Physik A Hadrons and Nuclei, Vol. 74, No. 4-5, pp. 295-335.
8	Bozorth, R.M, Williams, 1945, H.J., "Effect of Small Stresses on Magnetic Properties", Reviews of Modern Physics, Vol. 17, No, 1.
9	Bozorth, R.M., Hamming, R.W., 1953, "Measurement of Magnetostriction in Single Crystals", Physical Review, Vol. 89, No. 4, pp. 865-869. DOI
10	IEEE Std 100, 1996. The IEEE standard dictionary of electrical and electronics terms. Institute of Electrical and Electronics Engineers, Library MARC record, 6th edition, 1278 pages.
11	K. Delaere, 2002. Computational and Experimental Analysis of Electric Machine Vibrations caused by Magnetic Forces and Magnetostriction. Doctoral dissertation. Katholieke Universiteit Leuven, Leuven, Belgium.
12	A. Dorfmann, Ogden R. W., 2003, "Magneto-elastic Modelling of Elastomers", Europ. J. Mech. A/Sol., Vol. 22, pp. 497-507. DOI ScienceOn
13	A. Dorfmann, Ogden R.W., Saccomandi, G., 2004, "Universal relations for non-linear magnetoelastic solids", Int. J. Non-Lin. Mech., Vol. 39, pp. 1699-1708. DOI ScienceOn

Reference

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5	Prof. Oszkár Bíró, Prof. David A. Lowther. (2013) COMPEL - The international journal for computation and mathematics in electrical and electronic engineering Magnetomechanical coupled FE simulations of rotating electrical machines / 32 (5) , 1484
3	Seung-Hwan Lee. (2012) Electronic Materials Letters Electrical properties of lead-free 0.98(Na0.5K0.5Li0.1)NbO3-0.02Ba(Zr0.52Ti0.48)O3 ceramics by sintering temperature / 8 (3) , 289
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10	Seung-Hwan Lee. (2012) Materials Research Bulletin Piezoelectric and dielectric properties of 0.98(Na0.5K0.5)NbO3–0.02Ba(ZrxTi(1−x))O3 ceramics / 47 (10) , 2863

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