论文信息 - An analysis of thin magnetic materials using hypersingular integral equations

An analysis of thin magnetic materials using hypersingular integral equations

This paper describes a two-dimensional analysis of magnetic fields with thin magnetic materials using hypersingular integral equations. In this analysis, the thin materials are modeled as infinitesimally thin sheets, on which hypersingular integral equations for the vector potential are formulated. The hypersingular integral equation is discretized by a boundary element method, on the basis of the Hadamard finite part integral, to numerically compute magnetic fields. The present method is shown to give an accurate magnetic field in a cylindrical magnetic shell with linear permeability. Moreover, numerical results for the shell with non-linear permeability are provided.

Hajime Igarashi | Toshihisa Honma

[1] Koji Fujiwara,et al. 3D magnetic field analysis using special elements , 1990 .

[2] J. Sládek,et al. Regularization Techniques Applied to Boundary Element Methods , 1994 .

[3] C. J. Carpenter,et al. Three-dimensional numerical solution of eddy currents in thin plates , 1975 .

[4] D. Rodger,et al. Finite element method for 3D eddy current flow in thin conducting sheets , 1988 .

[5] F. J. Rizzo,et al. Continuity requirements for density functions in the boundary integral equation method , 1992 .

[6] Isaak D. Mayergoyz,et al. On calculation of 3-D eddy currents in conducting and magnetic shells , 1995 .

[7] X. Brunotte,et al. Line element for efficient computation of the magnetic field created by thin iron plates , 1990, International Conference on Magnetics.

[8] L. Krahenbuhl,et al. Thin Layers in Electrical Engineering. Example of Shell models in Analysing Eddy-Currents by Boundary and Finite Element Methods , 1992, Digest of the Fifth Biennial IEEE Conference on Electromagnetic Field Computation.