Mutual Interference of Multiple Surface Cracks Due to Rolling-Sliding Contact with Frictional Heating
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概要
- 論文の詳細を見る
rights: 本文データは社団法人日本機械学会の許諾に基づきCiNiiから複製したものであるThis paper deals with the two-dimensional rolling-sliding contact problem with frictional heat generation on an elastic half-space containing multiple surface cracks. Rolling-sliding contact is simulated as an arbitrarily distributed contact load with normal and shear components, moving with constant velocity over the surface of the half-space. The frictional heat generation at the region of contact is estimated by use of sliding velocity, frictional coefficient and contact pressure. Numerical results of stress intensity factors are obtained for the case of a set of parallel cracks due to Hertzian- and parabolic-distributed loads. The interferential effects on the stress intensity factors with the distance between two cracks, as well as the effects of the slide/roll ratio, frictional coefficient and crack angle, are considered.
- 一般社団法人日本機械学会の論文
- 1994-07-15
著者
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GOSHIMA Takahito
Faculty of Engineering, Toyama University
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Goshima T
Toyama Univ. Toyama City Jpn
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Goshima Takahito
Faculty Of Engineering Toyama University
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Kamishima Yuuji
Toyama Murata Corporation
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Kamishima Y
Toyama Murata Corp. Toyama City Jpn
関連論文
- Study on the Thermal Shock Behavior of Cermets and Cemented Carbides
- Surface Crack Growth Path and Fatigue Life Prediction Due to Repeated Rolling/Sliding Contact
- Thermomechanical Effects due to Hot Rolling Contact on the Energy Release Rates of Multiple Interface Cracks in Layered Media
- Mutual Interference of Two Subsurface Cracks in a Semi-Infinite Body Due to Rolling Contact with Frictional Heating
- Mutual Interference of Multiple Surface Cracks Due to Rolling-Sliding Contact with Frictional Heating
- Stress Intensity Factors of a Subsurface Crack in a Semi-Infinite Body due to Rolling/Sliding Contact and Heat Generation
- Mutual Interference of Two Surface Cracks in a Semi-Infinite Body Due to Rolling Contact with Frictional Heating by a Rigid Roller
- Fatigue Crack Growth Behavior of Subsurface Crack in a Semi-Infinite Body Due to Rolling-Sliding Contact
- Surface Crack Growth Path and Fatigue Life Prediction Due to Repeated Rolling/Sliding Contact