Nisitani Hironobu | Faculty Of Engineering Kyushu University

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概要

• 同名の論文著者
• Faculty Of Engineering Kyushu Universityの論文著者

関連著者

• Nisitani Hironobu

  Faculty Of Engineering Kyushu University

• Nisitani Hironobu

  Faculty of Engineering, Kyushu University

• Nisitani H

  Department Of Mechanical Engineering Kyushu Sangyo University

• NOGUCHI Hiroshi

  Faculty of Engineering, Kyushu University

• Noguchi Hiroshi

  Faculty Of Commerce University Of Marketing And Distribution Sciences

• Chen Dai-heng

  Faculty Of Computer Science And Systems Engineering Kyushu Institute Of Technology

• KAGE Masaharu

  Oita National College of Technology

• Kawagoishi Norio

  Faculty Of Engineering Kagoshima University

• Goto Masahiro

  Faculty Of Engineering Kyushu University

• Gotoh Masahiro

  The Second Department Of Internal Medicine Gifu University School Of Medicine

• Goto Masahiro

  The Second Department Of Internal Medicine Gifu University School Of Medicine

• Goto Masahiro

  Department Of Mechanical Engineering Oita University

• GOTO Masahiro

  Faculty of Engineering, Oita University

• YANAGAWA Yasuhiro

  Toto Ltd.

• Chenh Dai-Heng

  Faculty of Computer Science and Systems Engineering, Kyushu Institute of Technology

• Goto Hirofumi

  Central Research Laboratories Idemitsu Kosan Co. Ltd.

• Chenh Dai-heng

  Faculty Of Computer Science And Systems Engineering Kyushu Institute Of Technology

• MIYAGAWA Hiroomi

  Department of Mechanical Engineering, Oita University

• MIYAGAWA Hiroomi

  Faculty of Engineering, Oita University

• MORI Kazuya

  Kurume College Technology

• Kawagoishi N

  Kagoshima Univ. Kagoshima Jpn

• Miyagawa Hiroomi

  Faculty Of Engineering Oita University

• Chen Dai-heng

  Faculty Of Engineering Kyushu University

• Toyohiro Toshinobu

  Miyakonojo National College of Technology

• Goto M

  Kyushu Univ. Fukuoka Jpn

• ODA Yasuji

  Faculty of Engineering, Kyushu University

• Murakami Yukitaka

  Department Of Mechanical Engineering Kyushu Institute Of Technology

• Murakami Yukitaka

  Hitachi Research Laboratory Hitachi Co. Ltd.

• Murakami Yukitaka

  Kyushu Institute Of Technology

• TAKAO Ken-ichi

  Faculty of Pharmaceutical Sciences, Science University of Tokyo

• Chen D‐h

  Kyushu Inst. Technology Iizuka Jpn

• Chen D‐h

  Sci. Univ. Tokyo Tokyo Jpn

• CHEN Dai-Heng

  Faculty of Computer Science and Systems Engineering, Kyushu Institute of Technology

• Oda Yasuji

  Faculty Of Engineering Kyushu University

• Mori K

  Kurume College Of Technology

• Kage Masaharu

  Oita Technical College

• Kage Masaharu

  Faculty Of Engineering Kyushu University

• Yakushiji Terutoshi

  Kobe Steel Ltd.

• Takao Ken-ichi

  Faculty Of Science And Engineering Saga University

• GOTO Hirofumi

  Faculty of Engineering, Kyushu University

• Kawagoishi Norio

  Faculty Of Engineering Kagosima University

• Kawagoishi Norio

  Facuoty Of Engineering Kagoshima University

• Chen Dai-heng

  Department Of Mechanical Engineering Jiang Nan University

• Morimitsu Takenori

  Yokosuka Electrical Communication Laboratory

• Noguchi H

  Univ. Tokyo Tokyo Jpn

• Uchihori Hisayuki

  Faculty Of Engineering Kyushu University

• YOSHIKAWA Yoshihisa

  Fuji Iron and Steel Co., Ltd.

• OKASAKA Ken-ichi

  Hitachi, Ltd.

• TANAKA Hiroyuki

  Kitakyushu Industrial Research Institute of Fukuoka Prefecture

• FUJISAKI Wataru

  Kitakyushu Industrial Research Institute of Fukuoka Prefecture

• Nakae Hiroshi

  Faculty Of Engineering Kyushu University

• Higashimachi Takao

  Applied Electronics Research Center Kumamoto Technopolis Foundation

• Okasaka Ken-ichi

  Hitachi Ltd.

• Yoshikawa Yoshihisa

  Fuji Iron And Steel Co. Ltd.

• Imai Ryoichi

  Kurume College Of Technology

• Hyakutake Hiizu

  Faculty Of Engineering Fukuoka University

• Hagio Terutoshi

  Faculty of Engineering, Fukuoka University

• Hagio T

  Fukuoka Univ. Fukuoka Jpn

• Hagio Terutoshi

  Faculty Of Engineering Fukuoka University

• Noguchi Hiroshi

  Faculty Of Engineering Kyushu University

• Shingai Katsuro

  Nagasaki Technical Institute Mitsubishi Heavy Industries Ltd.

• AKAZAKI Masayuki

  Hamakawasaki Works, Toshiba Corporation

• Akazaki Masayuki

  Hamakawasaki Works Toshiba Corporation

• Nisida Sin-ichi

  Technical Research Institute Yawata Works Nippon Steel Corporation

• KAWANO Koken

  Oita Technical College

• KUSUMOTO Shoh

  Hitachi Research Laboratory, Hitachi Ltd.

• Kawano Koken

  Oita Technical Colleg

• Kusumoto Shoh

  Hitachi Research Laboratory Hitachi Ltd.

• FUKUDAH Takayuki

  Sasebo College of Technology

• Nisitani H.

  Faculty of Engineering, Kyushu University

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著作論文

• Effect of Mean Stress on Fatigue Srength, Crack Strength and Notch Radius at Branch Point in Axial Fatigue of 7:3 Brass
• Crack Propagation in Low Cycle Fatigue of 7 : 3 Brass Specimens under Reversed Bending
• Observation of Local Deformation and Crack Initiation in High-Cycle Torsional Fatigue of Carbon Steel Plain Specimen by Electron Microscope
• Elastic Parameters Influencing Stress Fields in Multiphase Composite
• Analysis of Elastodynamic Problems Based on the Principle of Superposition : Extension of the Body Force Method to Elastodynamic Problems
• Considerations of the Small-Crack Growth Law Based on COD : Low-Cycle Bending Fatigue Test of an Annealed 0.45%C Steel in the SEM
• Fatigue Damage of Heat-Treated 0.45%C Steel Smooth Specimens Under Two-Step Loading
• Statistical Property in the Initiation and Propagation of Microcracks of a Heat-Treated 0.45% C Steel
• Effect of Oil Viscosity on the Fatigue Limit of Drilled Specimens and the Small Crack Growth Law
• Semi-Infinite Body with a Revolutional Pit Under Tension
• Semi-Infinite Body with a Semi-Ellipsoidal Pit under Tension
• Mode I and II Singular Stress Fields near a Corner of Jointed Dissimilar Materials
• Transverse Bending of Rectangular Plates with Single- or Double-Edge Cracks
• Anisotropy of Low-Cycle Torsional and Push-Pull Fatigue in a Rolled Steel
• Some Consideration on the Anisotropy of Fatigue Limit in a Rolled Steel Plate, Based on the Observation of Fatigue Process in Electropolished Specimens
• Anisotropy of the Fatigue Limit and of the Crack Propagation Property of a Rolled Steel Plate
• The Effect of Tensile Prestrain on the Fatigue Strength of Strength-Anisotropic Rolled Steel
• Effect of Heat Treatment on Anisotropy of Fatigue Strength of a Rolled Steel
• Influence of Mean Stress on Crack Closure Phenomenon and Fatigue Crack Propagation
• Characteristics of Surface Crack Growth in Rotating Bending Tests of Age-hardened or Annealed Al-alloy
• Fatigue Damage of Electropolished Carbon Steel Specimens with a Shallow Groove under Two Stress Levels
• Tension of an Infinite Elastic Body Having an Infinite Row of Spheroidal Cavities
• Rotary Bending Tests of Steel Specimens Having a Shallow but Sharp Circumferential Groove
• Effects of Size on the Fatigue Limit and the Branch Point in Rotary Bending Tests of Carbon Steel Specimens
• On the Tension of an Infinite Plate Containing an Infinite Row of Elliptic Holes
• Effect of Microstructure on the Characteristics of Small Fatigue Crack Growth in Dual-Phase Steels
• Minimum Fatigue Crack Length for the Application of Small-Crack Growth Law
• Fatigue Limit of Welded High Strength Steel and its Improvement Due to TIG Treatment : An Examination Based on Non-Propagating Phenomena of Crack
• Estimation of Crack Propagating Property by the Rotating Bending Fatigue Tests of Specimens with a Small Hole
• Analysis of Plasticity Induced Crack Closure by the Extended Body Force Method : Comparison of Various Analytical Results Based on Dugdale Model : Series A : Solid-Mechanics, Strength of Materials
• Improvement of the Accuracy in BEM or FEM Based on the Similarity of Stress Fields Near Notch Roots
• Singular Stress Field near a Corner of Jointed Dissimilar Materials under Antiplane Loads
• Analysis of Plasticity-Induced Crack Closure by the Extended Body Force Method : (Comparison of Various Analytical Results Based on Dugdale Hypothesis)
• Slip Deformation and Low-Cycle Fatigue Damage of an Aluminium Alloy
• Effect of Overstress on the Fatigue Behavior of a Heat-treated 0.54% C Steel under the Stress of Fatigue Limit
• Fracture Criterion of Notched Plates of FRP
• An Examination of the Notch Effect in Fatigue of Carbon Steels Based on Linear Notch Mechanics
• Torsional Fatigue and Bending Fatigue of Electropolished Low Carbon Steel Specimens
• Tensile Fracture Criterion of High Strength Steel Specimens with a Circumferential Notch : Solid-Mechanics, Strength of Materials
• Effect of Oil Environment on Characteristics of Fatigue Crack Growth of Age-Hardened Al-Alloy : Series A : Solid-Mechanics Strength of Materials
• The Effect of Overstress on the Non-Propagating Crack Formed in a Specimen with a Small Hole : Series A : Solid-Mechanics, Strength of Materials
• Analysis of the Delaying Effects of Overloads on Fatigue Crack Propagation by the Body Force Method : Series A : Solid-Mechanics, Strength of Materials
• Correlation between the Existence of Fatigue Limit and Non-Propagating Micro-Crack
• Bending or Torsional Fatigue of Notched Specimen with a Small Hole at the Notch Root
• Notch Effect in Low-Cycle Fatigue : 2nd Report : Effect of Stress Change and Mean Stress
• Comparison of Fatigue Processes in 0.45%C Steel Specimens Polished under Different Conditions
• Small Fatigue Crack Initiation and Propagation of Annealed 0.42% C Steel in Oil : Solid-Mechanics, Strength of Materials
• Method of Approximate Calculation for Interference of Notch Effects and Its Application

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