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Materials Sciences and Applications

Materials Sciences and Applications

Materials Sciences and Applications

ISSN Print: 2153-117X
ISSN Online: 2153-1188
www.scirp.org/journal/msa
E-mail: msa@scirp.org
"Fatigue Limit Prediction and Estimation for the Crack Size Rendered Harmless by Peening for Welded Joint Containing a Surface Crack"
written by Ryutaro Fueki, Koji Takahashi, Keiji Houjou,
published by Materials Sciences and Applications, Vol.6 No.6, 2015
has been cited by the following article(s):
  • Google Scholar
  • CrossRef
[1] Combined effect of surface morphology and residual stress induced by fine particle and shot peening on the fatigue limit for carburized steels
International Journal of …, 2023
[2] Fatigue limit estimation for carburized steels with surface compressive residual stress considering residual stress relaxation
International Journal of …, 2022
[3] Effect of atmospheric‐controlled induction‐heating fine particle peening on microstructure and fatigue properties of low‐alloy steel
Fatigue & Fracture of …, 2022
[4] Reliability Improvement of Offshore Structural Steel F690 Using Surface Crack Nondamaging Technology
Journal of Ocean Engineering and …, 2021
[5] The efficiency of HFMI treatment and TIG remelting for extending the fatigue life of existing welded structures
2021
[6] Fatigue life extension of existing welded structures via high frequency mechanical impact (HFMI) treatment
2021
[7] Fatigue life estimation of treated welded attachments via Hig h Frequency Mechanical Impact treatment (HFMI-treatment)
2021
[8] Enhancing fatigue strength of welded joints made of SBHS700 by hammer peening with ICR apparatus and HFMI treatment
2021
[9] 高張力鋼溶接部に生じた表面欠陥に対するピーニングによる無害化可能な欠陥寸法の破壊力学的評価
2021
[10] Improving the fatigue limit and rendering a defect harmless by laser peening for a high strength steel welded joint
2021
[11] Fatigue life extension in existing steel bridges
2020
[12] Fatigue crack repair in welded structures via tungsten inert gas remelting and high frequency mechanical impact
2020
[13] Fatigue Life Extension in Existing Steel Bridges. High-Frequency Mechanical Impact Treatment and Tungsten Inert Gas Remelting in Life Extension and …
2020
[14] Fatigue Limit Improvement and Rendering Defects Harmless by Needle Peening for High Tensile Steel Welded Joint
2019
[15] A Literature review for the state of the art. Fatigue life extension of welded structures by peening and TIG dressing
2019
[16] き裂状表面欠陥を有するステンレス鋼溶接継手の疲労限度改善と欠陥の無害化
2019
[17] 압축잔류응력 분포에 따르는 무해한 균열 크기 평가
2019
[18] Prediction of fatigue limit improvement in needle peened welded joints containing crack-like defects
International Journal of Structural Integrity, 2018
[19] Fatigue strength improvement of an aluminum alloy with a crack-like surface defect using shot peening and cavitation peening
Engineering Fracture Mechanics, 2018
[20] レーザピーニングによる溶接部の疲労強度向上とき裂の無害化
2018
[21] Increased fatigue strength of partially stabilised zirconia achieved by shot peening
Health Communication, 2016
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