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Satoshi HIROSAWA
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Magnetization and magnetic anisotropy of R2Fe14B measured on single crystals
S Hirosawa, Y Matsuura, H Yamamoto, S Fujimura, M Sagawa, ...
Journal of applied physics 59 (3), 873-879, 1986
10281986
Nd–Fe–B permanent magnet materials
M Sagawa, S Hirosawa, H Yamamoto, S Fujimura, Y Matsuura
Japanese journal of applied physics 26 (6R), 785, 1987
5501987
Magnetic properties of rare‐earth‐iron‐boron permanent magnet materials
M Sagawa, S Fujimura, H Yamamoto, Y Matsuura, S Hirosawa
Journal of applied physics 57 (8), 4094-4096, 1985
3271985
Three-dimensional atom probe characterization of nanoclusters responsible for multistep aging behavior of an Al-Mg-Si alloy
A Serizawa, S Hirosawa, T Sato
Metallurgical and materials transactions A 39, 243-251, 2008
3232008
Coercivity enhancement of hydrogenation–disproportionation–desorption–recombination processed Nd–Fe–B powders by the diffusion of Nd–Cu eutectic alloys
H Sepehri-Amin, T Ohkubo, T Nishiuchi, S Hirosawa, K Hono
Scripta Materialia 63 (11), 1124-1127, 2010
2622010
Magnetic properties of the Nd2(Fe1−xCox)14B system
Y Matsuura, S Hirosawa, H Yamamoto, S Fujimura, M Sagawa
Applied Physics Letters 46 (3), 308-310, 1985
2431985
High‐coercivity iron‐rich rare‐earth permanent magnet material based on (Fe, Co)3B‐Nd‐M (M=Al, Si, Cu, Ga, Ag, Au)
S Hirosawa, H Kanekiyo, M Uehara
Journal of applied physics 73 (10), 6488-6490, 1993
2221993
Phase diagram of the Nd-Fe-B ternary system
Y Matsuura, S Hirosawa, H Yamamoto, S Fujimura, M Sagawa, ...
Japanese journal of applied physics 24 (8A), L635, 1985
2111985
Intrinsic hard magnetic properties of Sm (Fe1− xCox) 12 compound with the ThMn12 structure
Y Hirayama, YK Takahashi, S Hirosawa, K Hono
Scripta Materialia 138, 62-65, 2017
2042017
Dependence of coercivity on the anisotropy field in the Nd2Fe14B‐type sintered magnets
M Sagawa, S Hirosawa, K Tokuhara, H Yamamoto, S Fujimura, ...
Journal of applied physics 61 (8), 3559-3561, 1987
2041987
Classification of the role of microalloying elements in phase decomposition of Al based alloys
S Hirosawa, T Sato, A Kamio, HM Flower
Acta Materialia 48 (8), 1797-1806, 2000
1712000
Magnetic characteristics of R2Fe14B systems prepared with high purity rare earths (R= Ce, Pr, Dy, and Er)
EB Boltich, E Oswald, MQ Huang, S Hirosawa, WE Wallace, E Burzo
Journal of applied physics 57 (8), 4106-4108, 1985
1711985
Perspectives for high-performance permanent magnets: applications, coercivity, and new materials
S Hirosawa, M Nishino, S Miyashita
Advances in Natural Sciences: Nanoscience and Nanotechnology 8 (1), 013002, 2017
1582017
NdFe12Nx hard-magnetic compound with high magnetization and anisotropy field
Y Hirayama, YK Takahashi, S Hirosawa, K Hono
Scripta Materialia 95, 70-72, 2015
1522015
Magnetic refrigerant material, regenerator and magnetic refrigerator
H Wada, S Hirosawa
US Patent 6,826,915, 2004
1332004
Microstructure and magnetic properties of high-remanence Nd/sub 5/Fe/sub 71.5/Co/sub 5/B/sub 18.5/M (M= Al, Si, Ga, Ag, Au) rapidly solidified and crystallized alloys for resin …
H Kanekiyo, M Uehara, S Hirosawa
IEEE transactions on magnetics 29 (6), 2863-2865, 1993
1231993
Microstructural evolution of Fe3B/Nd2Fe14B nanocomposite magnets microalloyed with Cu and Nb
DH Ping, K Hono, H Kanekiyo, S Hirosawa
Acta materialia 47 (18), 4641-4651, 1999
1201999
The dependence of coercivity on anisotropy field in sintered R-Fe-B permanent magnets
S Hirosawa, K Tokuhara, Y Matsuura, H Yamamoto, S Fujimura, ...
Journal of magnetism and magnetic materials 61 (3), 363-369, 1986
1121986
Intrinsic magnetic properties of Sm (Fe1-xCox) 11Ti and Zr-substituted Sm1-yZry (Fe0. 8Co0. 2) 11.5 Ti0. 5 compounds with ThMn12 structure toward the development of permanent …
P Tozman, H Sepehri-Amin, YK Takahashi, S Hirosawa, K Hono
Acta Materialia 153, 354-363, 2018
1102018
Unusual effects of Ti and C additions on structural and magnetic properties of Nd–Fe–B nanocomposite magnets in a B-rich and Nd-poor composition range
S Hirosawa, H Kanekiyo, T Miyoshi
Journal of magnetism and magnetic materials 281 (1), 58-67, 2004
1102004
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