Research field (1):
Machine materials and mechanics
Research keywords (6):
金属材料試験
, 疲れ
, 破壊力学
, Metals Strength Test
, Fatigue
, Fracture Mechanics
Research theme for competitive and other funds (8):
2022 - 2025 Improved fatigue strength of high-strength steels fabricated by additive manufacturing in the very high cycle regime
2021 - 2025 超高サイクル疲労における内部起点型破壊評価手法の確立
2018 - 2022 Elucidation of the mechanism of very high cycle fatigue and the development of its evaluation method based on synchrotron radiation micro/nano- CT
2015 - 2017 ナノビーチマーク法によるギガサイクル疲労の定式化
2011 - 2012 Elucidation of gigacycle fatigue mechanism of high-strength steel using a nano beach mark method
2009 - 2010 Development of an ultrasonic fatigue testing machine at high temperature up to 1000°C
金属疲労
Metal Fatigue
Show all
Papers (56):
Hideaki Nishikawa, Kishan Habib, Yoshiyuki Furuya, Toru Hara, Toshio Osada, Kyoko Kawagishi. Short fatigue crack growth mechanism in Ni-Co based superalloy at elevated temperatures and in oxidative atmospheres. Materials Science and Engineering: A. 2023. 145655-145655
Hideaki Nishikawa, Yoshiyuki Furuya, Toshio Osada, Kyoko Kawagishi, Toru Hara. Three-dimensional high-resolution crystallographic observation of the entire volume of microstructurally small fatigue cracks in Ni-Co based superalloy. SCRIPTA MATERIALIA. 2023. 222
Hisashi Hirukawa, Yoshiyuki Furuya, Hideaki Nishikawa, Nobuo Nagashima, Etsuo Takeuchi. NIMS fatigue data sheet on gigacycle fatigue properties of A6061-T6 (Al-1.0Mg-0.6Si) aluminium alloy at high stress ratios. Science and Technology of Advanced Materials: Methods. 2022
Hisashi Hirukawa, Yoshiyuki Furuya, Hideaki Nishikawa, Nobuo Nagashima, Etsuo Takeuchi. NIMS fatigue data sheet on gigacycle fatigue properties of SCr420 (0.20C-1.05Cr) carburizing steel for machine structural use. Science and Technology of Advanced Materials: Methods. 2022
Hideaki Nishikawa, Yoshiyuki Furuya, Houichi Kitano, Terumi Nakamura, Kosuke Kuwabara, Yoshiharu Kanegae, Dong-Soo Kang, Kinya Aota. In-situ observation of microstructurally small fatigue crack initiation and growth behaviors of additively-manufactured alloy 718. MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING. 2022. 835