Shigeru HAMADA
Shigeru HAMADA
Department of Mechanical Engineering, Faculty of Engineering, Kyushu University
確認したメール アドレス: mech.kyushu-u.ac.jp
タイトル
引用先
引用先
A NEW METHOD FOR THE MEASUREMENT OF MODE II FATIGUE THRESHOLD STRESS INTENSITY FACTOR RANGE ΔKτth
Y Murakami, S Hamada
Fatigue & Fracture of Engineering Materials & Structures 20 (6), 863-870, 1997
411997
Qualification of chromium–molybdenum steel based on the safety factor multiplier method in CHMC1-2014
J Yamabe, H Matsunaga, Y Furuya, S Hamada, H Itoga, M Yoshikawa, ...
International Journal of Hydrogen Energy 40 (1), 719-728, 2015
392015
Measurement of mode II threshold stress intensity factor range ΔKIIth
Y Murakami, T Fukuhara, S Hamada
Zairyo/Journal of the Society of Materials Science, Japan 51 (8), 918-925, 2002
272002
Strain mapping with high spatial resolution across a wide observation range by digital image correlation on plastic replicas
S Hamada, T Fujisawa, M Koyama, N Koga, N Nakada, T Tsuchiyama, ...
Materials characterization 98, 140-146, 2014
212014
Planar slip-driven fatigue crack initiation and propagation in an equiatomic CrMnFeCoNi high-entropy alloy
K Suzuki, M Koyama, S Hamada, K Tsuzaki, H Noguchi
International Journal of Fatigue 133, 105418, 2020
202020
Mechanical examination of crack length dependency and material dependency on threshold stress intensity factor range with Dugdale model
N Fukumura, T Suzuki, S Hamada, K Tsuzaki, H Noguchi
Engineering Fracture Mechanics 135, 168-186, 2015
182015
Various strength properties of SCM435 and SNCM439 low-alloy steels in 115 MPa hydrogen gas and proposal of design guideline
S Matsuoka, H Matsunaga, J Yamabe, S Hamada, T Iijima
Transactions of the JSME (in Japanese) 83 (854), 17-00264, 2017
152017
Fatigue crack growth behavior of JIS SCM440 steel near fatigue threshold in 9-MPa hydrogen gas environment
K Tazoe, S Hamada, H Noguchi
International Journal of Hydrogen Energy 42 (18), 13158-13170, 2017
142017
Fatigue limit evaluation considering crack initiation for lamellar pearlitic steel
S Hamada, D Sasaki, M Ueda, H Noguchi
Procedia Engineering 10, 1467-1472, 2011
142011
Engineering definitions of small crack and long crack at fatigue limit under tensile mean stress and a prediction method for determining the fatigue limit of a cracked Mg alloy
S Hamada, T Kinoshita, K Morishige, K Hayashi, T Ishina, H Noguchi
International journal of fatigue 56, 86-94, 2013
132013
Proposal of method for estimation stress intensity factor range on small crack for light metals
H Noguchi, K Morishige, T Fujii, T Kawazoe, S Hamada
Proc. 56th JSMS annual meetings, 197-138, 2007
122007
New Measurement Method of Mode II Threshold Stress Intensity Factor ΔKτ Range and Its Application
Y Murakami, S Hamada, K Sugino, K ichi Takao
Journal of the Society of Materials Science, Japan 43 (493), 1264-1270, 1994
111994
Threshold stress intensity factor range of a mechanically-long and microstructually-short crack perpendicular to an interface with plastic mismatch
B Li, M Koyama, S Hamada, H Noguchi
Engineering Fracture Mechanics 182, 287-302, 2017
102017
Tensile properties of precracked tempered martensitic steel specimens tested at ultralow strain rates in high-pressure hydrogen atmosphere
D Sasaki, M Koyama, S Hamada, H Noguchi
Philosophical Magazine Letters 95 (5), 260-268, 2015
102015
Pre-strain effect on fatigue strength characteristics of SUH660 plain specimens
H Wu, S Hamada, H Noguchi
International journal of fatigue 55, 291-298, 2013
102013
Influence of RTA parameters on residual stress and stress gradient of multilayered LPCVD polysilicon film
E Yoshikawa, M Tsugai, M Horikawa, H Otani, S Hamada
Technical Digest. MEMS 2002 IEEE International Conference. Fifteenth IEEE …, 2002
102002
Analysis of small spalling mechanism on hot rolling mill roll surface
A Sonoda, S Hamada, H Noguchi
Memoirs of the Faculty of Engineering, Kyushu University 69 (1), 1-14, 2009
92009
Notch sensitivity of the fatigue limit in high-strength steel
Y Hamano, M Koyama, S Hamada, H Noguchi
isij international 56 (8), 1480-1486, 2016
82016
Ductile-to-brittle transition in tensile failure due to shear-affected zone with a stress-concentration source: a comparative study on punched-plate tensile-failure …
S Hamada, J Zhang, K Zhang, M Koyama, T Tsuchiyama, T Yokoi, ...
International Journal of Fracture 212 (2), 237-248, 2018
72018
Fatigue strength characteristics evaluation of SUH660 considering small fatigue crack propagation behavior and hardness distribution
H Wu, S Hamada, H Noguchi
International journal of fatigue 63, 1-11, 2014
72014
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論文 1–20