Fretting Fatigue Strength of Several Materials Combinations
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概要
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Fretting fatigue tests are carried out with various materials combinations, and the reduction rates of fatigue strength by fretting are obtained with an observation on the behaviors of frictional force. Stress analyses on the contacting surfaces are conducted elastically by using the maximum stress due to friction together with repeated stress applied on specimens, and the results are compared with the experimental results. The fatigue strength is reduced more remarkably by fretting under bending than under twisting and the damage is greater to materials combination with higher tangential stress. These results agree fairly well with the consideration where the fatigue cracks are initiated under the maximum repeated shearing stress calculated from the combination of bending or twisting stress and frictional stress. The strength reduction rate is, however, greater than the analytical one for specimens of aluminum alloy and for lower cycle frequencies. Although further studies should be made on the behaviors in fretting fatigue which are similar to those in corrosion fatigue, it may be concluded that the initiation of fretting fatigue cracks is due to the maximum repeated shearing stress.
- 一般社団法人日本機械学会の論文
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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- Fundamental Studies of Cavitation Erosion : In the Case of Low Cavitation Intensity
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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