DocumentCode
68653
Title
Micromagnetic Simulations of Magnetization Reversal in Misaligned Multigrain Magnets With Various Grain Boundary Properties Using Large-Scale Parallel Computing
Author
Fujisaki, Jun ; Furuya, Atsushi ; Uehara, Yuji ; Shimizu, Kazuo ; Oshima, Hirotaka ; Ohkubo, Tomoki ; Hirosawa, Satoshi ; Hono, Kazuhiro
Author_Institution
Fujitsu Ltd., Kawasaki, Japan
Volume
50
Issue
11
fYear
2014
fDate
Nov. 2014
Firstpage
1
Lastpage
4
Abstract
This paper reports on micromagnetic simulations of the magnetization reversal behavior in polycrystalline Nd-Fe-B sintered magnets using large-scale parallel computing. A multigrain model is introduced to calculate the grain alignment dependence of the coercivity of polycrystalline Nd-Fe-B magnets with various magnetic characteristics at grain boundaries (GBs). The magnetic domain wall motion is accurately treated by dividing the analyzed object into extremely small elements. The multigrain model with a soft magnetic GB phase and a reverse domain at the initial state well reproduces experimental results. The calculations of coercivity with several GB widths are also carried out to seek for the origin of the sudden decrease of coercivity with nearly perfect grain alignment.
Keywords
boron alloys; coercive force; ferromagnetic materials; grain boundaries; iron alloys; magnetic domain walls; magnetisation reversal; micromagnetics; neodymium alloys; sintering; soft magnetic materials; NdFeB; coercivity; extremely small elements; grain alignment dependence; grain boundary properties; large-scale parallel computing; magnetic characteristics; magnetic domain wall motion; magnetization reversal; micromagnetic simulations; misaligned multigrain magnets; nearly perfect grain alignment; polycrystalline Nd-Fe-B sintered magnets; reverse domain; soft magnetic GB phase; Coercive force; Magnetic domain walls; Magnetic domains; Micromagnetics; Perpendicular magnetic anisotropy; Soft magnetic materials; Coercivity; Nd???Fe???B magnets; grain alignment; magnetic domain wall; micromagnetics; parallel computing; rare-earth magnets; simulation;
fLanguage
English
Journal_Title
Magnetics, IEEE Transactions on
Publisher
ieee
ISSN
0018-9464
Type
jour
DOI
10.1109/TMAG.2014.2326176
Filename
6971382
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