Hisao Matsunaga

Kyushu University

H-index: 32

Asia-Japan

About Hisao Matsunaga

Hisao Matsunaga, With an exceptional h-index of 32 and a recent h-index of 26 (since 2020), a distinguished researcher at Kyushu University, specializes in the field of Fatigue, Hydrogen embrittlement.

His recent articles reflect a diverse array of research interests and contributions to the field:

Fatigue crack-growth properties of ductile cast iron in hydrogen gas with oxygen impurity at various temperatures

Hydrogen Gas Embrittlement: Mechanisms, Mechanics, and Design

Effects of Cr, Mn, and Fe on the hydrogen solubility of Ni in high-pressure hydrogen environments and their electronic origins: An experimental and first-principles study

Inferior fatigue resistance of additively-manufactured Ni-based superalloy 718 and its dominating factor

Criteria for determining the fatigue limit of Ni-based superalloy 718, considering the competition between opening-and shear-mode fatigue crack-growth

Steel pipe for high-pressure hydrogen piping and high-pressure hydrogen piping using same

Martensite Boundary Characteristics on Cycle-and Time-Dependent Fatigue Crack Growth Paths of Tempered Lath Martensitic Steels in a 90 MPa Gaseous Hydrogen Atmosphere

Copper alloy assembly and production method therefor

Hisao Matsunaga Information

University	Kyushu University
Position	___
Citations(all)	2935
Citations(since 2020)	2007
Cited By	1688
hIndex(all)	32
hIndex(since 2020)	26
i10Index(all)	68
i10Index(since 2020)	54
Email	Access Email
University Profile Page	Kyushu University
Google Scholar	View Google Scholar Profile

Hisao Matsunaga Skills & Research Interests

Fatigue

Hydrogen embrittlement

Top articles of Hisao Matsunaga

Title	Journal	Author(s)	Publication Date
Fatigue crack-growth properties of ductile cast iron in hydrogen gas with oxygen impurity at various temperatures	Engineering Failure Analysis	Kentaro Okumura Kojiro Motoyama Hisao Matsunaga	2024/4/1
Hydrogen Gas Embrittlement: Mechanisms, Mechanics, and Design		Hisao Matsunaga Junichiro Yamabe Osamu Takakuwa Yuhei Ogawa Saburo Matsuoka	2024/1/12
Effects of Cr, Mn, and Fe on the hydrogen solubility of Ni in high-pressure hydrogen environments and their electronic origins: An experimental and first-principles study	International Journal of Hydrogen Energy	Kazuma Ito Misaho Yamamura Tomohiko Omura Junichiro Yamabe Hisao Matsunaga	2024/1/2
Inferior fatigue resistance of additively-manufactured Ni-based superalloy 718 and its dominating factor	International Journal of Fatigue	Sungcheol Park Yuya Tanaka Saburo Okazaki Yusuke Funakoshi Hideto Kawashima ...	2023/11/1
Criteria for determining the fatigue limit of Ni-based superalloy 718, considering the competition between opening-and shear-mode fatigue crack-growth	Engineering Fracture Mechanics	Yuya Tanaka Sungcheol Park Saburo Okazaki Hisao Matsunaga	2023/9/27
Steel pipe for high-pressure hydrogen piping and high-pressure hydrogen piping using same			2023/9/6
Martensite Boundary Characteristics on Cycle-and Time-Dependent Fatigue Crack Growth Paths of Tempered Lath Martensitic Steels in a 90 MPa Gaseous Hydrogen Atmosphere	Metallurgical and Materials Transactions A	Tingshu Chen Motomichi Koyama Yuhei Ogawa Hisao Matsunaga Eiji Akiyama	2023/7
Copper alloy assembly and production method therefor			2023/11/9
Role of grain boundaries and precipitates in small, fatigue crack-growth resistance of additively-manufactured, Ni-based superalloy 718 under torsional cyclic loading	Materials Letters	Sungcheol Park Yuya Tanaka Saburo Okazaki Yusuke Funakoshi Hideto Kawashima ...	2023/11/1
Fatigue limit of circumferentially notched metastable austenitic stainless steel under positive/negative stress ratios: Synergistic effects of notch-root mechanistic …	International Journal of Fatigue	Naoaki Nagaishi Yuhei Ogawa Saburo Okazaki Hisao Matsunaga	2022/12/1
欠陥の影響下における転がり軸受の破壊力学に基づく疲労破壊発生基準	NSK technical journal	渡貫大輔，堤雅子，飛鷹秀幸，和田健太郎，松永久生	2022
Transition mechanism of cycle-to time-dependent acceleration of fatigue crack-growth in 0.4% C Cr-Mo steel in a pressurized gaseous hydrogen environment	International Journal of Fatigue	Atsuki Setoyama Yuhei Ogawa Masami Nakamura Yuya Tanaka Tingshu Chen ...	2022/10/1
析出硬化型高 Mn オーステナイト鋼の水素脆化挙動に及ぼす Ni 含有量および時効熱処理の影響	鉄と鋼	細田孝，小川祐平，髙桑脩，本村達，細井日向，松永久生	2022
Effects of Ni Concentration and Aging Heat Treatment on the Hydrogen Embrittlement Behavior of Precipitation-Hardened High-Mn Austenitic Steel	TETSU TO HAGANE-JOURNAL OF THE IRON AND STEEL INSTITUTE OF JAPAN	Takashi Hosoda Yuhei Ogawa Osamu Takakuwa Susumu Motomura Hyuga Hosoi ...	2022/2/1
Fatigue crack-growth retardation after overloading in gaseous hydrogen: Revisiting the effect of hydrogen on crack-tip plastic-zone development	Materials Letters	Yuhei Ogawa Keiichiro Iwata Saburo Okazaki Masami Nakamura Kazuki Matsubara ...	2022/2/1
Dual roles of pearlite microstructure to interfere/facilitate gaseous hydrogen-assisted fatigue crack growth in plain carbon steels	International Journal of Fatigue	Yuhei Ogawa Haruki Nishida Masami Nakamura Vigdis Olden Alexey Vinogradov ...	2022/1/1
産学官連携による水素社会への取り組み	フルードパワー= Fluid power	杉村丈一，西村伸，松永久生，尾上清明	2022
A novel analysis of stress intensity factors for distributed non-planar surface cracks and its application to material quality control	Theoretical and Applied Fracture Mechanics	Adeyinka Abass Hisao Matsunaga	2022/12/1
析出硬化型高 Mn オーステナイト鋼の耐水素性に及ぼす Ni 含有量および時効熱処理の影響	山陽特殊製鋼技報	細田孝，小川祐平，髙桑脩，細井日向，松永久生	2022
内部・外部水素による Ni 基超合金 718 の延性低下機構とその温度依存性	鉄と鋼	野口耕平，小川祐平，高桑脩，松永久生	2021