Identyfikatory
Warianty tytułu
Zachowanie częstotliwościowe określonego modelu strat całkowitych z uwzględnieniem anizotropii stali elektrotechnicznej
Języki publikacji
Abstrakty
Ze względu na fakturę Gossa stal elektryczna wykazuje silną anizotropię właściwości magnetycznych. Zjawisko to powinno być brane pod uwagę przez projektantów obwodów magnetycznych, ponieważ ma ono niepożądany efekt m.in. wibracje i hałas. W literaturze można znaleźć kilka podejść do anizotropii właściwości magnetycznych. W artykule przedstawiono charakterystykę częstotliwościową parametrów anizotropii modelu strat PS w oparciu o trzyskładnikowy model strat całkowitych.
Due to Goss texture electrical steel displays strong anisotropy of magnetic properties. This phenomenon shoud be taken into account by designers of magnetic circuits as it has undesirable effect e.g. vibrations and noise. Several approaches for anisotropy of magnetic properties can be found in the literature. In this paper are presented frequency behavior of parameters of anisotropy PS loss model based on three components specific total loss model.
Wydawca
Czasopismo
Rocznik
Tom
Strony
129--132
Opis fizyczny
Bibliogr. 20 poz., rys.
Twórcy
autor
- Politechnika Częstochowa, Wydział Elektryczny, Al. Armii Krajowej 17, 42-200 Częstochowa
Bibliografia
- [1] Fiorillo F., “Measurements of magnetic materials,” Metrologia, 47 (2012), S114–S142
- [2] Pluta W.A., “Some properties of factors of specific total loss components in electrical steel,” IEEE Trans. Magn., 46 (2010), No. 2, 323-325
- [3] Pfuetzner H., “Rotational magnetization and rotational losses of grain oriented silicon steel sheets-fundamental aspects and theory”, IEEE Trans. Magn., 30 (1994), No. 5, 2802-2807
- [4] Sievert J., Ahlers H., Birkfeld H., Cornut B., Fiorillo F., Hempel K.A., Kochmann T., Kedoues-Lebouc A., Meydan T., MosesA.J. and Rietto A.M., “European intercomparison of measurements of rotational power loss in electrical sheet steel,” J. Magn. Magn. Mater., 160 (1996), 115-118
- [5] Stranges N. and Findlay R.D., “Measurement of rotational losses in electrical steel,” IEEE Trans. Magn., 36 (2000), No. 5, pp. 3457-3459
- [6] Gorican V., Hamler A., Jesenik M., Stumberger B. and Trlep M., “Unreliable determination of vector B in 2-D SST,” J. Magn.Magn. Mater., 254-255 (2003), 130-132
- [7] Stumberger B., Gorican V., Stumberger G., Hamler A., Trlep M., and Jesenik M., “Accuracy of iron loss calculation in electrical machines by using different iron loss models,” J. Magn. Magn. Mater., 254-255 (2003), 269-271
- [8] Fiorillo F., Dupre L.R., Appino C., Rietto A.M., "Comprehensive model of magnetization curve, hysteresis loops, and losses in any direction in grain -oriented Fe-Si,” IEEE Trans. Magn., 38 (2002), No 3, 1467-1476
- [9] Sande H. V., Boonen T., Podoleanu I., Henrotte F., and Hameyer K., "Simulation of a Three-Phase Transformer Using an Improved Anisotropy Model," IEEE Trans. on Magn., 40 (2004), No. 2, 850-855
- [10] Cornut B., Kedous-Lebouc A., Waeckerlé T., “From metallurgy to modeling of electrical steels: A multiple approach to their behavior and use based on physics and experimental investigations,” J. Magn. Magn. Mater., 160 (1996), 102–108
- [11] Soinski M., Moses A.J., Handbook of Magnetic Materials, Chapter 4, Vol. 8, Elsevier Science B.V., 1994
- [12] de Campos M. F., "Anisotropy of steel sheets and consequence for Epstein test: I theory", XVIII IMEKO WORLD CONGRES Metrology for a Sustainable Development September, 17 – 22, 2006, Rio de Janeiro, Brazil.
- [13] W.Pluta, A.J. Moses: Prediction of angular variation of specific total loss of Goss oriented electrical steel, Physica B: Condensed Matter, Vol. 544 (2018), 28-33
- [14] Pluta W.A., Calculating power loss in electrical steel taking into account magnetic anisotropy, Przegląd Elektrotechniczny, No 2 (2018), 100-103
- [15] IEC 404-3:1999; Magnetic materials. Methods of measurements of soft magnetic properties of electrical steel and type with the use of single sheet tester
- [16] Bertotti G., “Hysteresis in magnetism”, Academic Press (1998)
- [17] G. Bertotti (2014), "Interpretation and Modeling of Magnetic Power Losses in Soft Magnetic Materials", Plenary lecture at 13th International Workshop on 1&2 Dimensional Magnetic Measurement and Testing - Torino
- [18] Barbisio E., F. Fiorillo and C. Ragusa (2004) “Predicting Loss in Magnetic Steels Under Arbitrary Induction Waveform and With Minor Hysteresis Loops”, IEEE Trans. on Mag., 40 (2004), No. 4, 1810-1819
- [19] Pfuetzner H., Schonhuber P., Erbil B., Harasko G. and Klinger T., “Problems of loss separation for crystalline and consolidated amorphous sof magnetic materials", IEEE Trans. on Magn., 27 (1991), No 3, 3426-3432
- [20] Pluta W.A., Angular properties of specific total loss components under axial magnetization in grain-oriented electrical steel. IEEE Trans. on Magnetics, 52 (2016), No. 4, 6300912
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-81d056bd-9d0b-4fce-bc52-eaf8eed8446e