Miyoshi Yoshio | Faculty Of Engineering Science Osaka Univerty
スポンサーリンク
概要
関連著者
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Miyoshi Yoshio
Faculty Of Engineering Science Osaka Univerty
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MIYOSHI Yoshio
Department of Mechanical Systems Engineering, School of Engineering, University of Shiga Prefecture
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Ogura Keiji
Faculty Of Engineering Science Osaka University
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Miyoshi Yoshio
Faculty Of Engineering Science Osaka University
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Miyoshi Yoshio
Department Of Mechanical Systems Engineering School Of Engineering University Of Shiga Prefecture
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Nishikawa Izuru
Faculty Of Engineering Science Osaka Univerty
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Tanabe Hirotaka
Department of Pathology, Tokyo Medical and Dental University
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Tanabe Hirotaka
The Univ. Of Shiga Prefecture
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Tanabe Hirotaka
Department Of Mechanical Systems Engineering School Of Engineering University Of Shiga Prefecture
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Tanabe Hirotaka
Department Of Pathology Tokyo Medical And Dental University
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TAKAMATSU Tohru
Department of Mechanical Systems Engineering, School of Engineering, University of Shiga Prefecture
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SUGIURA Hideyuki
University of Shiga Prefecture
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OGURA Keiji
Faculty of Engineering, Osaka University
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ITATANI Masao
Faculty of Engineering Science, Osaka University
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Takamatsu Tohru
The University of Electro-Communications
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Sugiura H
University Of Shiga Prefecture
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Itatani Masao
Faculty Of Engineering Science Osaka University
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Takamatsu T
Department Of Mechanical Systems Engineering School Of Engineering University Of Shiga Prefecture
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Takamatsu Tohru
Department Of Mechanical And Control Engineering University Of Electro-communications
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GOTOH Tsuyoshi
Mazda Co. Ltd.,
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NISHIKAWA Izuru
Osaka University
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Gotoh Tsuyoshi
Mazda Co. Ltd.
著作論文
- Effects of Bias Voltage and Discharge Current on Mechanical Properties of TiN Film Deposited by DC Magnetron Sputtering
- Crack Growth Behavior of Hydrogenated Austenitic Stainless Steel by High Temperature Cathodic Charging : Solid-Mechanics, Strength of Materials
- New Developments in Fracture Surface Analysis Using X-Ray and Laser
- The Role of Crack Closure on Fatigue Threshold at Elevated Temperatures
- Effect of Oxide and Roughness on Fatigue Crack Growth Threshold in Low Carbon Steel at Elevated Temperature : Solid-Mechanics, Strength of Materials