Kazuo Honda
Kyoto University
60 Papers
416 Citations
Kazuo Honda is an academic researcher from Kyoto University. The author has contributed to research in topics: Stress concentration & Crack closure. The author has an hindex of 16, co-authored 60 publications. Previous affiliations of Kazuo Honda include Okayama Prefectural University.
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Papers
X-Ray Investigation on Fatigue Damage of Metals under Mean Stress : (1st Report, Plane Bending Fatigue)
TL;DR: In this paper, the authors carried out some investigations on the changes in half-value breadth, residual stress and micro-structure in a case of fatigue under bending stress amplitude combined with mean stress, for the purpose of studying the mechanism of fatigue failure of metallic materials under mean stress.
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X-Ray Investigation on the Prediction of Fatigue Life
Shuji Taira,Kazuo Honda +1 more
TL;DR: In this article, it has been reported that the estimation of fatigue life of the materials under constant stress amplitude can be made using the liner relation of b/B-log n/N (where B and b are the initial and the current half-value breadth of diffraction line in fatigue and N/N is the cycle ratio).
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Relationship between stress intensity factors and residual stress distributions evaluated from discontinuous displacements along mixed-mode crack
TL;DR: In this paper, the authors measured the discontinuous displacements along a crack in order to evaluate the stress distribution acting on the crack surfaces, using the obtained stress distribution, both the residual stress along the crack and the stress intensity factors K1, K2 were evaluated, and the effects of residual stress on K 1, K 2 were discussed.
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A case of small intestinal malignant lymphoma, confirmed by intestinal scope and operated on by laparoscopic surgery with combinational treatment by neoadjuvant chemotherapy
TL;DR: “Viable” large Bcell lymphomadiffuse large B cell lymphomaと診断した, 今回, 小腸内視鏡のための開腹手術は従来一般的であったが,”
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Fatigue Crack Propagation Behavior of Surface Pre-Cracks in Tensile Residual Stress Field
TL;DR: In this article, the effect of tensile residual stress distribution on the fatigue crack propagation rate of surface pre-cracks has been quantitatively evaluated by the use of the proposed fatigue crack growth law, in which Kmax was calculated from the maximum stress distribution including residual and applied stresses.
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