Hysteresis model and statistical interpretation of energy losses in non-oriented steels

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• 作者：Veronica Mănescu (Păltâ ; nea) ; ^{veronica.paltanea@upb.ro" class="auth_mail" title="E-mail the corresponding author} ; Gheorghe Păltâ ; nea ; Horia Gavrilă
• 关键词：Preisach model ; Magnetic object theory ; Non-oriented electrical steel ; Energy losses ; Hysteresis losses ; Loss separation concept
• 刊名：Physica B: Physics of Condensed Matter
• 出版年：2016
• 出版时间：1 April 2016
• 年：2016
• 卷：486
• 期：Complete
• 页码：12-16
• 全文大小：1195 K

文摘

In this paper the hysteresis energy losses in two non-oriented industrial steels (M400-65A and M800-65A) were determined, by means of an efficient classical Preisach model, which is based on the Pescetti–Biorci method for the identification of the Preisach density. The excess and the total energy losses were also determined, using a statistical framework, based on magnetic object theory. The hysteresis energy losses, in a non-oriented steel alloy, depend on the peak magnetic polarization and they can be computed using a Preisach model, due to the fact that in these materials there is a direct link between the elementary rectangular loops and the discontinuous character of the magnetization process (Barkhausen jumps). To determine the Preisach density it was necessary to measure the normal magnetization curve and the saturation hysteresis cycle. A system of equations was deduced and the Preisach density was calculated for a magnetic polarization of 1.5 T; then the hysteresis cycle was reconstructed. Using the same pattern for the Preisach distribution, it was computed the hysteresis cycle for 1 T. The classical losses were calculated using a well known formula and the excess energy losses were determined by means of the magnetic object theory. The total energy losses were mathematically reconstructed and compared with those, measured experimentally.