An Anisotropic Model for Magnetostriction and Magnetization Computing for Noise Generation in Electric Devices

Sensors (Basel). 2016 Apr 16;16(4):553. doi: 10.3390/s16040553.

Abstract

During the manufacturing process and use of ferromagnetic sheets, operations such as rolling, cutting, and tightening induce anisotropy that changes the material's behavior. Consequently for more accuracy in magnetization and magnetostriction calculations in electric devices such as transformers, anisotropic effects should be considered. In the following sections, we give an overview of a macroscopic model which takes into account the magnetic and magnetoelastic anisotropy of the material for both magnetization and magnetostriction computing. Firstly, a comparison between the model results and measurements from a Single Sheet Tester (SST) and values will be shown. Secondly, the model is integrated in a finite elements code to predict magnetostrictive deformation of an in-house test bench which is a stack of 40 sheets glued together by the Vacuum-Pressure Impregnation (VPI) method. Measurements on the test bench and Finite Elements results are presented.

Keywords: anhysteretic; anisotropy; finite elements; magnetization; magnetostriction; noise; transformer; vibration.

Publication types

  • Research Support, Non-U.S. Gov't