Okamoto Kentaro | Steel Research Laboratories Nippon Steel Corporation
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概要
関連著者
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Okamoto Kentaro
Steel Research Laboratories Nippon Steel Corporation
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TOKUNAGA Yoshikuni
Nagoya R & D Labs, Nippon Steel Corporation
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藤岡 政昭
新日本製鐵(株)鉄鋼研究所
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藤岡 政昭
新日鐵 鉄鋼研究所
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藤岡 政昭
北大理
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Morikawa Hirofumi
Ns Techno-research Co.
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FUJIOKA Masaaki
Steel Research Laboratory, Nippon Steel Corp.
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YOSHIE Atsuhiko
Kimitsu R & D Laboratory, Nippon Steel Corporation
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FUJITA Takashi
Steel Research Laboratories, Nippon Steel Corporation
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OKAMOTO Kentaro
Nippon Steel Metal Products, Co.
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Yoshie A
Kimitsu R & D Laboratories Technical Development Bureau Nippon Steel Corporation
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Fujita Takashi
Steel Research Laboratories Nippon Steel Corporation
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OKAMOTO Kentaro
Nippon Steel Metal Products Co.
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TSUCHIDA Yutaka
Materials and Processing Research Center, NKK Corporation
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TSUCHIDA Yutaka
Nagoya R & D Labs, Nippon Steel Corporation
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Tsuchida Y
Ibaraki Univ. Ibaraki Jpn
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Tomita Yukio
Steel Research Laboratories Nippon Steel Corporation
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Saito Naoki
Nagoya R&D Laboratory, Nippon Steel Corporation
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Tsuzuki Takeshi
Nagoya Works, Nippon Steel Corporation
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MABUCHI Hidesato
Steel Research Laboratories, Nippon Steel Corporation
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Mabuchi H
Steel Research Laboratories Nippon Steel Corporation
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Mabuchi Hidesato
Steel Research Laboratories Nippon Steel Corporation
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Kobayashi Jun'ichi
Steel Research Laboratories, Nippon Steel Corporation
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Okamoto Kentaro
Steel Research Laboratories, Nippon Steel Corporation
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Ouchi Hiroshi
Steel Research Laboratories, Nippon Steel Corporation
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Soya Isao
Steel Research Laboratories, Nippon Steel Corporation
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Haze Toshiaki
Oita R&D Laboratory, Nippon Steel Corporation
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Haze Toshiaki
Oita R&D Laboratory, Nippon Steel Corporation
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Tokunaga Yoshikuni
Nagoya R&D Laboratory, Nippon Steel Corporation
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Saito Naoki
Nagoya R&D Laboratory, Nippon Steel Corporation
著作論文
- Formulation of the Decrease in Dislocation Density of Deformed Austenite Due to Static Recovery and Recrystallization
- Formulation of Flow Stress of Nb Added Steels by Considering Work-hardening and Dynamic Recovery
- Effect of Dislocation Density in an Unrecrystallized Part of Austenite on Growth Rate of Recrystallizing Grain
- Improvement of Creep Rupture Strength of High Cr Ferritic Steel by Addition of W
- Improvement of Creep Rupture Strength of 9Cr-1Mo-V-Nb-N Steel by Thermo-Mechanical Control Process
- Fatigue Crack Growth in a High Tensile Strength Steel in Seawater and Several Other Environments
- Improvement in HAZ Toughness of Steel by TiN-MnS Addition
- Development of 590-MPa Class High Tensile Strength Steel with Superior HAZ Toughness by Copper Precipitation Hardening.