NISHIDA Shin-ichi | Faculty of Science & Engineering, Saga University
スポンサーリンク
概要
関連著者
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NISHIDA Shin-ichi
Faculty of Science & Engineering, Saga University
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Hattori Nobusuke
Faculty Of Science & Engineering Saga Univ.
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HATTORI Nobusuke
Faculty of Science and Engineering, Saga University
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Hattori Nobusuke
Faculty Of Science And Engineering Saga University
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Hattori Nobusuke
Faculty Of Science & Engineering Saga University
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Nishida Shin-ichi
Faculty Of Science And Engineering Saga University
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THAT Kiem
Graduate School, Faculty of science and engineering, Saga University
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That Kiem
Graduate School Faculty Of Science And Engineering Saga University
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Nishida Shin-ichi
Faculty Of Science & Engineering Saga University
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西田 新一
佐賀大
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Iswanto Priyo
Graduate School Of Science & Engineering Saga University
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Nishida S
Faculty Of Science & Engineering Saga University
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NISHIDA Shin-ichi
Department of Mechanical Engineering, Faculty of Science and Engineering, Saga University
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Iswanto P
Graduate School Of Science & Engineering Saga University
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Sun Wenxian
Graduate School Of Science & Engineering Saga University
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NAKAMURA Norikazu
Fukuoka Industrial Technology Center
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Hattori N
Faculty Of Science & Engineering Saga University
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Nakamura Norikazu
Fukuoka Industrial Technology Center Mechanics & Electronics
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ONO Shin-ichi
Muroran Research Laboratory of The Japan Steel Works Ltd.
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Wang Sheng-wu
Faculty of Science & Engineering, Saga University
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Tamasaki Hidetosi
Nittetsu Bolten Co., Ltd.
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Wang Sheng-wu
Faculty Of Science & Engineering Saga University
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Tamasaki Hidetosi
Nittetsu Bolten Co. Ltd.
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That Kien
Graduate School, Faculty of science and engineering, Saga University
著作論文
- A STUDY OF EFFECTS OF GRAIN SIZE ON HIGH - CYCLE FATIGUE STRENGTH IN PURE ALUMINUM
- Influence of Mean Stress on the Stress-Controlled Fatigue of Structural Stainless Steels
- Fatigue Properties of a 5083/SiCp Metal Matrix Composite
- Effect of Plastic Deformation by Roller-Working on Fatigue Strength of Notched Specimen
- Static and Cyclic Properties of Eutectoid Steel and Study of its Micro-Behavior(Fatigue 2)