DocumentCode :
1390030
Title :
Effect of Surface Microstructure on Magnetization Process in Fe 
Cu 
Si
Author :
Ohta, Motoki ; Yoshizawa, Yoshihito ; Takezawa, Masaaki ; Yamasaki, Jiro
Author_Institution :
New Bus. Dev. Center, Hitachi Metals Ltd., Osaka, Japan
Volume :
46
Issue :
2
fYear :
2010
Firstpage :
203
Lastpage :
206
Abstract :
The magnetization processes of the Fe80.5Cu1.5Si4B14 nanocrystalline alloy were observed by Kerr effect. In the specimen annealed with heating rate of 0.3°C/s (NA), the pinning of domain walls was observed. Owing to such pinning effect in the NA specimen, high remanent magnetic flux density Br was obtained, and the hysteresis was observed in the B-H loop in the region of B > 1.5 T. Whereas, the smooth domain wall displacement was observed in the specimen annealed with the heating rate of 3°C/s (HA). The coarser grains near the surface observed in the NA specimen are considered to be the pinning site of the domain walls. In the HA specimen, grain growth in the heating process of annealing is suppressed.
Keywords :
annealing; boron alloys; copper alloys; crystal microstructure; grain growth; heat treatment; iron alloys; magnetic domain walls; magnetic flux; magnetic hysteresis; nanostructured materials; silicon alloys; surface magnetism; surface structure; Fe80.5Cu1.5Si4B14; Kerr effect; annealing; domain walls; grain growth; heating rate; hysteresis; magnetization process; nanocrystalline alloys; pinning effect; remanent magnetic flux density; surface microstructure; Annealing; Copper alloys; Heating; Iron alloys; Kerr effect; Magnetic domain walls; Magnetic flux density; Magnetization processes; Microstructure; Silicon alloys; Fe-based amorphous alloy; Fe-based nanocrystalline alloy; magnetic domain; soft magnetic materials;
fLanguage :
English
Journal_Title :
Magnetics, IEEE Transactions on
Publisher :
ieee
ISSN :
0018-9464
Type :
jour
DOI :
10.1109/TMAG.2009.2032092
Filename :
5393180
Link To Document :
