KUNIO Takeshi | Faculty of Engineering, Keio University.
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概要
関連著者
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KUNIO Takeshi
Faculty of Engineering, Keio University.
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Kunio Takeshi
Faculty Of Engineering Keio University
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Nakamura Hiroshi
Ship Department Of Technical Research Laboratory Kawasaki Dockyard Co. Ltd.
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HAGIWARA Yoshihiko
Faculty of Engineering, Keio University
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Hagiwara Yoshihiko
Faculty Of Engineering Keie University
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HATSUNO Kozo
Railway Technical Research Institute, Japanese National Rallways.
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Hatsuno Kozo
Railway Technical Research Institute Japanese National Railways
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AOKI Itsuro
Faculty of Engineering, Keio University.
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Aoki Itsuro
Faculty Of Engineering Keio University.
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Kanazawa Kenji
National Research Institute For Metals
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Shimizu Masao
Faculty Of Textile Science Kyoto University Of Industrial Arts And Textile Fibers
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IWAMOTO Kanetoshi
Natinal Research Institute for Metals
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UEDA Teruyuki
National Research Institute for Metals
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NAKAMURA Hiroshi
Technical Research Institute, Kawasaki Heavy Industry Ltd.
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NAKAMURA Hiroshi
Ship Department of Technical Research laboratory, Kawasaki Dockyard Co., Ltd.
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Yamada Kunihiro
Graduate School Keio University
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Kunio Takeshi
Faculty Of Science And Technology
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Iwanaga Shogo
Toyota Central Research And Development Laboratories Inc.
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Yoshino Toshio
Musashi Institute Of Technology
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Kanazawa Kenji
Graduate School Of Science And Engineering Chuo University
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NAKAMURA Hiroshi
Railway Technical Research Institute, Japanese National Railways.
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HAGIWARA Yoshihiko
Musashi Institute of Technology
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Shimizu Masao
Faculty Of Textile Fibers Kyoto University Of Industrial Arts And Textile Fibers.
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Yamada Kunihiro
Faculty Of Engineering Keio University.
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KIMURA Yuhji
Faculty of Engineering, Keio University
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YOSHIHARA Yukio
Faculty of Engineering, Keio University
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KANAZAWA Kenji
National Institute of Bioscience and Human-Technology, AIST
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Kimura Yuhji
Faculty Of Engineering Keio University
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Hoshino Jiro
Machinery Research Section Technical Research Institute Nippon Kaiji Kyokai
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Kunio Takeshi
Faculty Of Engineering Keio University.
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Kunio T
Faculty Of Science And Engineering Keio University
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Yoshihara Yukio
Faculty Of Engineering Keio University
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OKA Minoru
Technical Research Institute, Nippon Kaiji Kyokai
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NISHIMURA Yukio
Faculty of Engineering, Keio University
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IWAMOTO Kanetoshi
Head of Research Division, National Research Institute for Metals.
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IWAMOTO Kanetoshi
National Research Institute for Metals
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SUZUKI Hideto
Department of Mechanical Engineering, Oyama National College of Technology
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AYUTA Tokuichi
Daiichi Denshi Kogyo
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OUTA Yukitake
Daiichi Denshi Kogyo
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TAMURA Takakazu
Ishikawajima Harima Heavy Industries Co., Ltd.
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MURAKI Makoto
IE sec. Nippon Kokan K. K. Fukuyama Iron Works.
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SHIMADA Shosaku
Kubota iron & Machinery Works Ltd.
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AOKI Itsuro
Electric Utility & Industrial Division, Hitachi Ltd.
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TAKAHASHI Hideo
High Frequency Heat-Treatment Co., Ltd.
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AOKI Itsuro
Graduate Course of Faculty of Engineering, Keio University
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SHIMIZU Masao
Graduate Course of Engineering, Keio University
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Oka Minoru
Technical Research Institute Nippon Kaiji Kyokai
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Nishimura Yukio
Faculty Of Engineering Keio University
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Tamura Takakazu
Ishikawajima Harima Heavy Industries Co. Ltd.
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Shimada Shosaku
Kubota Iron & Machinery Works Ltd.
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Hagiwara Yoshihiko
Faculty Of Engineering Musashi Institute Of Technology
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Suzuki Hideto
Department Of Mechanical Engineering Oyama National College Of Technology
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Takahashi Hideo
High Frequency Heat-treatment Co. Ltd.
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KANAZAWA Kenji
National Institute of Advance Industrial Science and Technology (AIST)
著作論文
- On the Changes of Residual Stress Due to Slip Bands Accumulation
- Propagations of the Surface Fatigue Cracks in Various Kinds of Notched Specimens
- Rotating Bending Fatigue Test of Large Press-Fitted Shaft under Two-Step Pulsating Load
- Investigation of Low Cycle Fatigue at Elevated Temperatures : Dependence of Behavior of Fatigue Cracks on the Conditions of Temperature and Plastic Strain Range
- Investigation of Low Cycle Fatigue at Elevated Temperatures : (Factors Which Govern Number of Strain Cycles to Failure)
- Investigation of Thermal Fatigue : Behavior of Cracks during Thermal Fatigue
- Effects of Metallizing and Brazing Treatments on Static and Cyclic Fatigue of Polycrystalline Alumina
- The Mechanical and Optical Characterization of Polyurethane with Application to Photoviscoelastic Analysis
- Service Load and Fatigue Strength : Report 14,Crack Propagation under Repeated Varying Load
- Service Load and Fatigue Strength : Report 13,The Effects of One Superposed Impulsive Load on the Fatigue Crack Propagation and the Final Fracture under Constant Stress Amplitude
- Service Load and Fatigue Strength : Report 11,Effects of Gradually Increasing or Decreasing Load on the Initiation and Propagation of Fatigue Crack
- Service Load and Fatigue Strength : Report 6,Crack Initiation and Propagation under Repeated Varying Load
- Microstructural Approach of Study on the Fatigue Behavior of Induction-Hardened Steel (Report 2)
- Microstructural Approach of Study on the Fatigue Behavior of Induction-Hardened Steel (Report 1)
- The Study on the Fatigue Strength by Varying the Stress-Amplitude with a Superposed Mini-Sinusoidal Stress Wave on the Base Sinusoidal Stress Wave : Report 1,Some Experimental Results of Fatigue Test by New Simple Device for Superimposing Secondary Mini-S
- An Experiment on the Effect of Induction Hardening on Fatigue Strength : Report 5,An Experiment in Relation to Fatigue Crack Propagation (the Journal and the Transactions of the Japan Society of Mechanical Engineers)
- Quantitative Estimation of the Fatigue Crack Propagation under Varying Load Conditions
- Effective Factors for Crack Propagation under Varying Load Conditions
- The Effect of Plate Thickness on the Fatigue Crack Propagation of Very Thin Steel Plate Specimens