TANAKA Tsuneshichi | Faculty of Engineering, Ritsumeikan University

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概要

• 同名の論文著者
• Faculty of Engineering, Ritsumeikan Universityの論文著者

関連著者

• TANAKA Tsuneshichi

  Faculty of Engineering, Ritsumeikan University

• Nakayama Hideaki

  Faculty Of Engineering Yamanashi University

• Tanaka T

  Faculty Of Science And Engineering Ritsumeikan University

• Sakai Tatsuo

  Faculty Of Pharmaceutical Sciences Toyama Medical & Pharmaceutical University

• NAKAYAMA Hideaki

  Faculty of Engineering, Yamanashi University

• Nakayama Hideaki

  Faculty Of Junior College Of Automobile Industry Osaka Industrial University

• Tanaka Tsuneshichi

  Faculty Of Science And Engineering Ritsumeikan University

• Nakayama H

  Tottori Univ.

• Nakayama H

  Executive Office School Juridical Person Osaka Sangyo University

• OKADA Kenji

  Takamatsu National College of Technol.

• Kanayama Yukio

  Faculty of Engineering, Osaka Sangyo University

• Kawamoto Minoru

  Faculty Of Engineering Kyoto University

• Kanayama Yukio

  Faculty Of Engineering Osaka Industrial University

• Nakayama Hideaki

  Faculty of Junior College of Automobile Industry, Osaka Industrial University

• Okada K

  The Graduate School Of Natural Science And Technology Okayama University

• SAKAI TATSUO

  Faculty of Pharmaceutical Sciences, Toyama Medical and Pharmaceutical University

• Shikida Masahiro

  Faculty Of Engineering Osaka Industrial University

• Sakai Tatsuo

  Department Of Mechanica Engineering Ritsumeikan University

• Kinoshita Ken-ichiroh

  Kinoshita Metal Industry Co. Ltd.

• FUJITANI Keizo

  Faculty of Science and Engineering, Ritsumeikan University

• Denoh Shinpei

  Structural Engineering Laboratory Kobe Steel Ltd.

• Kawamoto M.

  Faculty of Engineering, Kyoto University

• Hori Michio

  Ritsumeikan University Toshiba Research And Development Center Tokyo Shibaura Electric Co. Ltd.

• Hori Michio

  Mechanical Engineering Lab. Tokyo Shibaura Electric Co. Ltd.

• Hori Michio

  Faculty Of Science And Engineering Ritsumeikan University

• Fujii Tsutomu

  Faculty Of Science And Engineering Ritsumeikan University

• Fujii Tsutomu

  Tokyo Koki Seizosho Ltd.

• Horikawa Noriyo

  Graduate Student Ritsumeikan University

• KAWAMOTO Minoru

  Faculty of Engineering, Kyoto University

• NAKAYAMA Hideaki

  Automobile Industry, Osaka Industrial University

• MORI Tadao

  Material and Components Group, Toshiba Corporation

• KINOSHITA Ken-ichiroh

  Faculty of Engineering, Ritsumeikan University

• NAKAJIMA Hiroshi

  Mitsubishi Heavy Industries LTD.

• NAKAYAMA Hideaki

  Executive Office, Osaka Sangyo University

• SAKAIDA Akiyoshi

  Department of Mechanical Engineering, Akashi College of Technology

• Mori Tadao

  Material And Components Group Toshiba Corporation

• Fukuchi Yusuke

  Industrial Research Institute Of Hyogo Prefecture

• Nonaka Toshio

  Faculty Of Engineering Kyoto University

• TAMURA Nobushige

  Takamatsu National College of Technology

• Kawamoto Minoru

  Faculty Of Engineering Kyoto University.

• Sakaida Akiyoshi

  Department Of Mechanical Engineering Akashi College Of Technology

• Tanaka Tsuneshichi

  Faculty Of Science And Engineering Ritumeikan University

• Sakai Tatsuro

  Faculty Of Science And Engineering Ritsumeikan University

• TERAYAMA Masashi

  Nigata Engineering Co., Ltd

• Terayama Masashi

  Nigata Engineering Co. Ltd

• NAKAGAWA Akiyoshi

  Hitachi, Ltd.

• YOSHIDA Yasuhiro

  Faculty of Science and Engineering, Ritsumeikan University.

• Nakagawa Akiyoshi

  Hitachi Ltd.

• Yoshida Yasuhiro

  Faculty Of Science And Engineering Ritsumeikan University.

• Nakayama Hideaki

  Faculty Of Science And Engineering Ritsumeikan University

• Nakayama Hideaki

  Executive Office School Juridical Person Osaka Sangyo University

• Okada Kenji

  Takamatsu Technical College

• OOKA Kenji

  Kisha Seizo Co. Ltd.

• Denoh Shinpei

  Structural Engineering Laboratory. Kobe Steel Ltd.

• Denoh Shinpei

  Ritsumeikan University

• SEKI Morio

  Faculty of Science and Engineering, Ritsumeikan University

• Seki Morio

  Faculty Of Science And Engineering Ritsumeikan University

• Sakai Tatsuo

  Faculty Of Science & Engineering Ritsumeikan University

• Tanaka Tsuneshichi

  Faculty Of Science And Engineering Ritsumeikan University.

• Tanaka Tsuneshichi

  Faculty Of Science & Engineering Ritsumeikan University

• Tanaka Tsuneshichi

  Faculty Of Science And Engineering Ritsumeikan Univ.

• KAKAYAMA Hideaki

  Faculty of Science and Engineering, Ritsumeikan University

• FUNABASHI Noboru

  Faculty of Science and Engineering, Ritsumeikan University

• Kakayama Hideaki

  Faculty Of Science And Engineering Ritsumeikan University

• Funabashi Noboru

  Faculty Of Science And Engineering Ritsumeikan University

• KAWAMOTO Minoru

  Faculty of Engineering, Kyoto University.

• Kawamoto M.

  Faculty of Engineering, Kyoto University.

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著作論文

• Development of a Hydraulic Spring-Type, High-Speed Impact Fatigue Testing Machine and the Experimental Results
• Studies on Fatigue Damage Caused by Stresses below the E durance Limit : Probability Distributions of Crack Initiation Lives at Stresses near the Endurance Limit
• Effect of Loading Time on High-Cycle Range Impact Fatigue Strength and Impact Fatigue Crack Growth Rate
• The Propagation of the Fatigue Crack Crossing the Inrerrace of Metal Composites Under the Effect of Residual Thermal Stress
• On the Propagation Behavior of the Fatigue Crack along the Interface of Metal Composites
• Propagation of Fatigue Cracks in Parallel with the Interfaces of Metal Composites
• A Probabilistic Study on Fatigue Life Distribution of a Metallic Material with Surface Defects Considering the Number of Initiated Cracks
• A Statistical Study on Fatigue Life Distribution Based on the Coalescence of Cracks from Surface Defects
• Effect of Heating and Cooling Speed and Hold Time on Thermal Fatigue
• ESTIMATION OF TENSILE STRENGTH DISTRIBUTION FOR CARBON FIBER WITH DIAMETER VARIATION ALONG FIBER
• Study on Crack Growth Behavior in Impact Fatigue : Part III, Fatigue Crack Growth Behaviors of 2017-T3 Aluminum Alloy
• Study on Crack Growth Behaviors in Impact Fatigue : Part II, Crack Clusure Behavior under Simple Impact Load
• Fatigue Crack Propagation Behaviors of Multilayered Low Carbon Steel-stainless Steel Composite Plates
• Study on Crack Growth Behavior in Impact Fatigue : Part 1,Impact Fatigue Crack Growth Characteristics of 0.1%C Aluminum Killed Steel
• Effect of Specimen Thickness on Fatigue Crack Propagation in High Strength Steels
• Effect of Aging Treatment on the Fatigue Crack Propagation of 18% Ni Maraging Steel
• Plane Bending Plastic Fatigue of Ni-Cr-Mo Steel
• Study on Coalescence Probability of Cracks Originating from Randomly Spaced Surface Defects and Associated Fatigue Life Distribution
• Effect of Loading Frequency on the Fatigue Strength of Steels at Elevated Temperatures
• Studies on Impact Fatigue : Part IV, Impact Fatigue Tests of 0.22%C Carbon Steel under -50℃ Low Temperature Atmosphere
• Notch Dependency of the Effect of Superimposed Stress of High Frequency on the Fatigue Strength
• Estimation of the Fatigue Life under Program Load Including the Stresses Lower than Endurance Limit
• Studies on Impact Fatigue : Part 1,Impact Fatigue Testing Machine and Impact Fatigue on Mild Steel
• Effect of Superimposed Stress of High Frequency on Fatigue Strength of Annealed Carbon Steel
• Studies on Impact Fatigue : part II, Inelastic Behavior of S50C Steel under Impact Fatigue Loads
• Fatigue Strength of 18% Ni Managing Steel and the Effect of Distributed Inclusions
• Studies on Impact Fatigue : Part V, Impact Fatigue Strength of 0.22%C Carbon Steel under-100℃ Low Temperature Atmosphere
• Effect of the Superimposed Stress of High Frequency on Fatigue Strength
• A Theoretical Study on Fatigue Life Distribution of Metallic Materials Based on the Distribution of Surface Defects

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