Effects of High Magnetic Field on Recrystallization Behavior in Fe-Si Alloys
来源期刊:材料科学与工程学报2000年增刊第1期
论文作者:S.Miyazaki K.Anak S.Umezawa Ya Xu H.Wada H.Ohtsuka
摘 要:Effects of high magnetic field on recrystallization, coarsening after primary recrystallization and texture evolution were studied in non-oriented and oriented 3% silicon steels. The highest applied magnetic field strength was 10 Tesla. It was found that primary recrystallization process and coarsening after primary recrystallization are both retarded by the application of magnetic field during annealing. A difference between primary recrystallization textures annealed with or without a magnetic field was found in both non-oriented and oriented 3% silicon specimens. It was found that the amount of texture component { 111 }<112> increases by the application of magnetic field during annealing.
S.Miyazaki1,K.Anak1,S.Umezawa2,Ya Xu2,H.Wada2,H.Ohtsuka2
(1.Institute of Materials Science, University of Tsukuba, Tsukuba, Ibaraki 305-8573, Japan;
2.National Research Institute for Metals, 3-13 Sakura, Tsukuba, Ibaraki 305-0003, Japan)
摘要:Effects of high magnetic field on recrystallization, coarsening after primary recrystallization and texture evolution were studied in non-oriented and oriented 3% silicon steels. The highest applied magnetic field strength was 10 Tesla. It was found that primary recrystallization process and coarsening after primary recrystallization are both retarded by the application of magnetic field during annealing. A difference between primary recrystallization textures annealed with or without a magnetic field was found in both non-oriented and oriented 3% silicon specimens. It was found that the amount of texture component { 111 }<112> increases by the application of magnetic field during annealing.
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