Magnetic Characteristic Analysis and Measurement of Vector Magnetic Property of a Non-oriented Electrical Steel Sheet Under High Magnetic Flux Condition

Abstract

In this paper, vector magnetic properties measurement and magnetic characteristics analysis of a non-oriented electrical steel sheet under high magnetic flux is presented. At first, the vector magnetic property of the non-oriented electrical steel sheet under the high magnetic flux condition is measured. Next relationships between the magnetic flux density vector $B$ and magnetic field strength vector $H$ of ring core model is simulated by using the database of measured vector magnetic property and a dynamic integration type E&S modeling. As the results, the difference of the maximum magnetic flux density $\vert B\vert_{\max}$ , the maximum magnetic field strength $\vert H\vert_{\max}$ distribution and the local hysteresis loops in the ring core model is obtained by increasing the exciting voltage. In particular, it was clarified that $\vert H\vert_{\max}$ distribution and locus of $H$ vector was effected due to the magnetic anisotropy of the non-oriented electrical steel sheet strongly.