DocumentCode
1431586
Title
Three-Dimensional Magnetic Field Numerical Calculation by Equivalent
Method for Magnetic Field Mitigation
Author
Fujisaki, Keisuke ; Fujikura, Masahiro ; Mino, Jirou ; Satou, Shouij
Author_Institution
Tech. Dev. Bur., Nippon Steel Corp., Chiba, Japan
Volume
46
Issue
5
fYear
2010
fDate
5/1/2010 12:00:00 AM
Firstpage
1147
Lastpage
1154
Abstract
The 3-D magnetic field numerical analysis of a full-scale magnetic shielding room is advantageously performed by using the equivalent B-H method. In the proposed numerical method, the magnetic anisotropy and the nonlinearity due to material magnetic saturation are taken into account, by directly introducing the magnetization characteristics of the considered materials. An equivalent element, which substitutes the plural finite elements having different material properties for a homogeneous one, is introduced to reduce the number of unknowns. When the equivalent B-H method is applied to a full-scale magnetic shielding room (length 5.8 m, width 3.3 m, height 3.3 m), the measured leakage magnetic flux density distribution is found to be in good agreement with the calculated one, proving the reliability of the proposed approach, which can be adopted in many large-scale electromagnetic field problems.
Keywords
finite element analysis; magnetic anisotropy; magnetic fields; magnetic flux; magnetic leakage; magnetic shielding; 3D magnetic field numerical analysis; equivalent B-H method; finite element analysis; full-scale magnetic shielding room; large-scale electromagnetic field problems; magnetic anisotropy; magnetic field mitigation; magnetic flux density distribution leakage; material magnetic saturation; three-dimensional magnetic field numerical calculation; Equivalent $Bhbox{–}H$ method; equivalent element; homogenization method; magnetic anisotropy; magnetic calculation; magnetic saturation; magnetic shield; magnetization characteristics; thin steel plate;
fLanguage
English
Journal_Title
Magnetics, IEEE Transactions on
Publisher
ieee
ISSN
0018-9464
Type
jour
DOI
10.1109/TMAG.2009.2039939
Filename
5424046
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