Effects of Cycle Frequency on Fretting Fatigue Life of Carbon Steel
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概要
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The bending and twisting fretting fatigue tests of carbon steels are carried out and the effects of cycle frequency are studied in comparison with the corrosion fatigue. The behaviors of the frictional force with progress of fretting cycles are observed. The results obtained are as follows : The fretting fatigue strength is decreased with lower frequency. The fretting damage is saturated in the early period of the total fatigue life, and the subsequent crack propagation period constitutes the most part of the life. The lower the frequency is, the shorter the saturation period. The frictional force increases initially and then decreases after showing a peak value. These changes at various frequencies well correspond to the extents of the fretting damage. Consequently, this shows that the fretting damage is attributed to cracks initiated under the frictional stresses at the initial stage simultaneously applied with the repeated stresses in the surface layers. The fretting corrosion without the repeated stresses hardly reduces the fatigue strength though the depth of wear scars is the same as that under fretting fatigue. The greater reduction of the fatigue strength by fretting under bending than under twisting may be also explained with the combined stresses.
著者
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Endo Kichiro
Faculty Of Engineering Kyoto University
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GOTO Hozumi
Faculty of Engineering, Kyoto University
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NAKAMURA Takuo
Kawasaki Steel Co., Ltd.
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Nakamura Takuo
Kawasaki Steel Co. Ltd.
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Endo Kichiro
Faculty Of Engineering Hiroshima University
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Goto Hozumi
Faculty Of Engineering Kyoto University
関連論文
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- Further Study on the Crack Depth and the Low Temperature Embrittlement of a Carbon Steel Subjected to Corrosion Fatigue
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- Fatigue Crack Propagation of Steel in Oil
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- Fundamental Studies on Cavitation Erosion
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- Studies on the Size Effect of Bending and Twisting Fatigue Strength
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- Fretting Fatigue Strength of Several Materials Combinations
- Fatigue Strength of Bearing Metals Lining on Steel Plates in Lubricating Oil
- Erosion Damages of Sintered Metals
- Plastic Strain Fatigue of High Tensile Steel in Corrosive Media
- Effects of Cycle Frequency on the Corrosion Fatigue Strength
- A Study of Fatigue Crack Propagation in a Coating Film on Base Metal
- Wear Behaviours of Metals under Lubricated Condition and the Effect of Small Electric Potential
- The Wear of Steel in Lubricating Oil under Varying Load
- Erosion of Bearing Alloys in Oil Film
- Environmental Effects on Initiation and Propagation of Fatigue Cracks in High Strength Steel