Effects of Statical Strength and Deformability of Steels on Tensile Impact Fatigue Strengths
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概要
- 論文の詳細を見る
The absorbed energy which determines the impact strength of a material depends on the magnitude of deformation and the deformability of the material. In an impact fatigue test, the phenomena of fatigue strength may differ for the low-cycle fatigue region (where the plastic deformation acts mainly) and for the high-cycle fatigue region (where the fatigue crack propagation acts mainly). In this research, tensile pulsating impact fatigue tests were carried out on the carbon steels whose deformabilities were changed by the carbon contents (0.28〜0.89%), the notch forms (the stress concentration factor α=1.05〜3.00), and the heat-treatment conditions. The results obtained can be summarized that the impact fatigue phenomena in low-cycle fatigue region show quasi-characteristics in unit impact test, and at high-cycle fatigue range they do not depend on unit impact characteristics. The rolled material has a lower notch sensitivity factor than the annealed material, which is different from the conventional fatigue phenomenon.
- 一般社団法人日本機械学会の論文
著者
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KAWAMOTO Minoru
Faculty of Engineering, Kyoto University
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Kawamoto Minoru
Faculty Of Engineering Kyoto University
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SHIBATA Toshinobu
Professor, Faculty of Engineering, Kyoto University
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TATSUNO Kenzo
Kobe Steel, Ltd.
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NIWA Tsutomu
Sumitomo Electric Industries, Ltd.
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Shibata Toshinobu
Professor Faculty Of Engineering Kyoto University
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Niwa Tsutomu
Sumitomo Electric Industries Ltd.
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Tatsuno Kenzo
Kobe Steel Ltd.
関連論文
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- Plane Bending Plastic Fatigue of Ni-Cr-Mo Steel
- Effects of Statical Strength and Deformability of Steels on Tensile Impact Fatigue Strengths
- Fatigue Strength under Multiple Repeated Stress : (In the Case of Double Change of Amplitude in Two Stress Levels)
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