Furuya Yoshiyuki | National Research Institute For Materials Science
スポンサーリンク
概要
関連著者
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FURUYA Yoshiyuki
National Institute for Materials Science
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Furuya Yoshiyuki
National Research Institute For Materials Science
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Furuya Yoshiyuki
Materials Information Technology Station National Institute For Materials Science (mits/nims)
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Furuya Yoshiyuki
Kyushu University Department Of Mechanical Science And Engineering
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Matsuoka Saburo
Faculty Of Engineering Kyushu University
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Ito Kaita
Department Of Materials Engineering School Of Engineering The University Of Tokyo
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Yamawaki Hisashi
National Institute For Materials Science
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HAYAKAWA Masao
Materials Information Technology Station, National Institute for Materials Science (MITS/NIMS)
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Enoki Manabu
Department Of Materials Engineering School Of Engineering The University Of Tokyo
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Enoki Manabu
Department Of Materials Engineering Graduate School Of Engineering The University Of Tokyo
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Ono Yoshinori
Materials Information Technology Station National Institute For Materials Science (mits/nims)
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Hayakawa Masao
Materials Information Technology Station National Institute For Materials Science (mits/nims)
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Hayakawa Masao
National Institute For Materials Science
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SHIWA Mitsuharu
National Institute for Materials Science
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MATSUOKA Saburo
Faculty of Engineering, Kyushu University
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Enoki Manabu
Department Of Engineering The University Of Tokyo
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FURUYA Yoshiyuki
Materials Information Technology Station, National Institute for Materials Science (MITS/NIMS)
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Shiwa Mitsuharu
Non-destructive Evaluation Group National Institute For Materials Science (nims)
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Shiwa Mitsuharu
Nde Center Japan Power Engineering And Inspection Corp.
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NOGUCHI Hiroshi
Kyushu University, Department of Mechanical Science and Engineering
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Noguchi Hiroshi
Kyushu University Mechanical Science & Engineering
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HIRUKAWA Hisashi
National Research Institute for Materials Science
著作論文
- Fatigue Process Evaluation of Ultrasonic Fatigue Testing in High Strength Steel Analyzed by Acoustic Emission and Non-Linear Ultrasonic
- Gigacycle Fatigue Properties of V-Added Steel with an Application of Modified Ausforming(Macro-, Micro-, Meso-, and Nano-scopic Strength of Materials Relating to Microstructures)
- Development of Observation Method for Tempered Martensite Microstructure Using Chemical Mechanical Polishing Technique
- Combined Method of Molecular Dynamics with Micromechanics in Simulations of Crack Propagation