Some Studies on Rotating Bending Fatigue of Large Mild Steel Specimen : Part 2,Propagation of Crack in Plain Cylindrical Specimens
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概要
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It has been noticed in the rotating bending fatigue test on 125φmm smooth surface specimens, described in part 1,that a shell pattern appeared on the fractured surface when a radical change of the stress was made on the specimen. The author has established a general relationship between stress and propagation speed of fatigue cracks from analytical studies on shapes of the shell pattern, which may be summarized as follows : 1. The shell pattern shows a definite shape, which is drawn as a family of curves depending upon arc length of th crack. 2. Assuming that the stress νσ_n (kg/mm^2) on the edge line of the fractured surface was equal to the stress on a beam having a sectional shape same as that of the specimen having a reduced area by the fracture, νσ_n was computed on a number of samples of shell patterns, as a result of which it has been found that the relation between the propagation speed ν_c (μ/c) and νσ_n may be obtained from the following formula : [chemical formula] where : σ_0 is a critical value of νσ_n=11.5kg/mm^2. When νσ_n exceeds σ_0,the propagation of crack takes place. B is a constant depending upon the size of the specimen ; B=17 for 125φ mm specimen.
- 一般社団法人日本機械学会の論文
著者
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Hoshino Jiro
Technical Research Institute Japanese Marine Corporation.
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Hoshino Jiro
Technical Research Laboratory Of The Japanese Marine Corporation
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Hoshino J.
Technical Research Laboratory of Nippon Kaiji Kyokai (The Japanese Marine Corpoitaron)
関連論文
- Strength Design of Marine Diesel Engine Crankshaft
- On the Rotary Bending Fatigue Strength of Induction Hardened Crankshaft
- On the Fatigue Strength of Induction Hardened Large-Size Press-Fitted Specimen
- Some Studies on Rotating Bending Fatigue of Large Mild Steel Specimen : Part 2,Propagation of Crack in Plain Cylindrical Specimens
- Some Studies on the Rotating Bending Fatigue of Large Mild Steel Specimens : Part 4,Effect of Size on Fatigue Strength of Cracked Specimen and Propagation Rate of Fatigue Crack