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Influence of magnetic anisotropy on flux density changes in dynamo steel sheets

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Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Magnetic measurements, carried out by means of the Epstein frame, have shown that most typical dynamo steel sheets have certain anisotropic properties. In numerical analysis, anisotropic properties are taken into account with the use of the special function of the grain distribution in the given dynamo sheet. For engineering purposes, it is desirable to assess the influence of these properties on the changes of the magnetic flux density in typical dynamo steel sheets, especially during the rotational magnetization. For this purpose, measurements of the flux density changes and field strength changes in the circular-shaped samples of two selected typical dynamo sheets were performed. These measurements were carried out for several values of the current flowing in windings which generated the axial or rotational magnetic field in the test dynamo sheet. The influence of the magnetic anisotropy on the magnetization process was briefly discussed for both types of the magnetization processes.
Rocznik
Strony
81--88
Opis fizyczny
Bibliogr. 12 poz., rys., tab., wz.
Twórcy
autor
  • Cracow University of Technology Institute of Electromechanical Energy Conversion ul. Warszawska 24,31-155 Kraków, Poland
autor
  • Cracow University of Technology Institute of Electromechanical Energy Conversion ul. Warszawska 24,31-155 Kraków, Poland
autor
  • Cracow University of Technology Institute of Electromechanical Energy Conversion ul. Warszawska 24,31-155 Kraków, Poland
Bibliografia
  • [1] Beckley P., Electrical steels for rotating machines. Bell & Bain Ltd., Glasgow (2002).
  • [2] Tumański S., Handbook of magnetic measurements. CRC/Taylor & Francis, Boca Raton (2011).
  • [3] Dedulle J.M., Meunier G., Foggia A., Sabonnadiere J.C., Magnetic fields in nonlinear anisotropic grain-oriented iron-sheet. IEEE Transactions on Magnetics 26(2): 524-527 (1990).
  • [4] Dupre L.R., Van Keer R., Melkeebeek J.A.A., Numerical evaluation of the influence of anisotropy on the eddy currents in laminated ferromagnetic alloys. IEEE Transactions on Magnetics 38(2): 813-816 (2002).
  • [5] Mekhiche M., Péra Th., Maréchal Y., Model of the anisotropy behaviour of doubly oriented and non-oriented materials using coenergy: application to a large generator. IEEE Transactions on Magnetics 31(3): 1817-1820 (1995).
  • [6] Enokizono M., Mori S., A treatment of the magnetic reluctivity tensor for rotating magnetic field. IEEE Transactions on Magnetics 33(2): 1608-1611 (1997)
  • [7] Mazgaj W., Modelling of rotational magnetization in anisotropic sheets. COMPEL 30(3): 957-967 (2011).
  • [8] Mazgaj W., Warzecha A., Influence of electrical steel sheet textures on their magnetization curves. Archives of Electrical Engineering 62(3): 425-437 (2013).
  • [9] Bertotti G., Mayergoyz I.D., The science of hysteresis. Vol. I, Elsevier, Oxford (2006).
  • [10] Shi Y.M., Jiles D.C., Ramesh A., Generalization of hysteresis modelling to anisotropic and textured materials. Journal of Magnetism and Magnetic Materials 178(1): 75-78 (1998).
  • [11] Kelly A., Groves G.W., Crystallography and crystal defects. Longman, London (1970).
  • [12] Mazgaj W., Sobczyk T., Warzecha A., Inclusion of the model of rotational magnetization into equations of magnetic field distribution. Proc. of International Conference on the Computation of Electromagnetic Fields COMPUMAG, Budapest, paper PA5 (2013).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d58b9130-eed2-40f7-836c-5b0ad5c24295
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