YOSHIYA Masato | Department of Adaptive Machine Systems, Osaka University
スポンサーリンク
概要
関連著者
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YOSHIYA Masato
Department of Adaptive Machine Systems, Osaka University
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Yoshiya Masato
Department Of Adaptive Machine Systems Graduate School Of Engineering Osaka University
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安田 秀幸
大阪大学大学院工学研究科
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NAGIRA Tomoya
Department of Materials Science and Processing, Graduate School of Engineering, Osaka University
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YASUDA Hideyuki
Department of Adaptive Machine Systems, Osaka University
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TAMURA Yuki
Osaka University
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TAMURA Yuki
Department of Adaptive Machine Systems, Osaka University
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Nagira Tomoya
Department Of Adaptive Machine System Osaka University
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Nagira Tomoya
Department Of Adaptive Machine Systems Osaka University
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Yasuda Hideyuki
Department Of Adaptive Machine System Osaka University
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YOSHIMOTO Tsutomu
Department of Adaptive Machine Systems, Graduate School of Engineering, Osaka University
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MIZUGUCHI Takuya
Department of Adaptive Machine Systems, Graduate School of Engineering, Osaka University
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Tamura Yuki
Department Of Adaptive Machine Systems Graduate School Of Engineering Osaka University
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Yoshiya Masato
Department Of Adaptive Machine Systems Osaka University
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Mizuguchi Takuya
Department Of Adaptive Machine Systems Graduate School Of Engineering Osaka University
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Yoshimoto Tsutomu
Department Of Adaptive Machine Systems Graduate School Of Engineering Osaka University
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Yoshiya Masato
Dep. Of Adaptive Machine Systems Graduate School Of Engineering Osaka Univ.
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Yasuda Hideyuki
Dep. Of Adaptive Machine Systems Graduate School Of Engineering Osaka Univ.
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安田 秀幸
大阪大学大学院工学研究科知能・機能創成工学専攻
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Nagira Tomoya
Department of Adaptive Machine Systems, Graduate School of Engineering, Osaka University
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Yoshizu Hiroki
Department of Adaptive Machine Systems, Osaka University
著作論文
- Effect of the Melt Flow on the Solidified Structure of Middle Carbon Steel by Means of the Levitation Method Using Alternating and Static Magnetic Fields
- Local Atomic Configuration of Dislocation-Accumulated Grain Boundary and Energetics of Gradual Transition from Low Angle to High Angle Grain Boundary in Pure Aluminum by First-Principles Calculations