Fatigue Strength of Low Carbon Steel Plate with a Sharp Notch and a Precrack under Plane Bending at Elevated Temperatures
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概要
- 論文の詳細を見る
The effect of the rapid strain aging during fatigues stressing at 350 〜400 ℃ on the fatigue strength of a low carbon steel plate was examined. The fatigue tests were made in plane bending at room temperature, 200℃, 375℃ and 450℃. Both of the endurance limits of the sharp notched specimen, that is, the critical stress required for crack initiation and that required for crack propagation reached a maximum at 375℃ and a minimum at 200℃. The threshold stress intensity factor range of a precracked specimen also reached a maximum at 375℃. The number of cycles to crack initiation and that to fracture at higher stress than the endurance limit showed the same temperature dependence as described above. The rapid strain aging at the peaking temperature is more effective inhibiting the crack propagation than the crack initiation.
- 一般社団法人日本機械学会の論文
著者
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HIROSE Motohisa
Junior Technical College,Gifu University
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HASEGAWA Norihiko
Faculty of Engineering,Gifu University
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KATO Yozo
Faculty of Engineering,Gifu University
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Kato Yozo
Faculty Of Engineering Gifu University
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Hirose Motohisa
Junior Technical College Gifu University
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Hasegawa Norihiko
Faculty Of Engineering Gifu University
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SATO Yasushi
NGK Spark Plug Co., Ltd.
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Sato Yasushi
Ngk Spark Plug Co. Ltd.
関連論文
- The Effect of Low Temperature Quenching and Quench Ageing on the Fatigue Strength of Notched Specimens of Low Carbon Steels
- The Effect of Strain Aging on Threshold Value for Surface Crack : Propagation of S45C Round Bar in Rotatory Bending
- Fatigue Strength of Low Carbon Steel Plate with a Sharp Notch and a Precrack under Plane Bending at Elevated Temperatures
- The Effect of Cyclic Stress Hysteresis at Elevated Temperature on the Crack Propagation Behavior in Smooth Specimens of O.45% Carbon Steel
- Effect of Cyclic Strain Ageing on the Critical Cyclic Stress Required to Propagate a Crack in Low Carbon Steels
- The Effect of Cyclic Strain Aging on the Fatigue Strength of Spheroidal Graphite Cast Iron at Elevated Temperatures