A Fractographic Study of Low Cycle Fatigue
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概要
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Low cycle fatigue fracture surfaces of an aluminum alloy (17S-T4) and a low carbon steel were studied fractographically to throw some light on the transition of the fracture surface topography form the static type characterized by dimples to the fatigue type characterized by striations. The mechanism of formation of the tire tracks was also studied in detail by mean s of stereographic technique, matching technique and panoramic pictures taken by scanning electron microscope, and it is concluded that the tire tracks are impressions made by protrusions or edges on the mating fracture surface each time repeated stress was applied. Some examinations were also made on the mechanism of formation of the striations and the results suggested the validity of the model proposed by Laird and Smith. Finally, measurements were made of the striation spacing with notched specimens of aluminum alloy, and the results were summarized fairly successfully in terms of stress intensity factor calculated by taking account of the stress concentration due to notch effect.
- 一般社団法人日本機械学会の論文
著者
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Koterazawa Ryoichi
Faculty Of Engineering Kyoto University
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Koterazawa Ryoichi
Faculty Of Engineering Science Osaka University
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SHIMO Daijiro
Technical Official, Faculty of Engineering Science, Osaka University
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Shimo Daijiro
Technical Official Faculty Of Engineering Science Osaka University
関連論文
- Influence of Rest in Stress Alternation on the Fatigue Properties of a Low Carbon Steel at Elevated Temperatures
- Fatigue and Dynamic Creep Properties of 13 Cr Steel at Elevated Temperature under Combined Stresses of Static Tension and Alternating Bending
- Dynamic Creep and Fatigue of 13 Chromium Steel at Elevated Temperature
- A Fractographic Study of Low Cycle Fatigue
- Influence of Frequency of Stress Cycles on Fatigue at Elevated Temperatures