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Tribology Transactions Volume 40, 1997 - Issue 4
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Original Articles

The Mechanism of Bearing Surface Fatigue–-Experiments and Theories

Y. P. Chiu The Torrington Company, Torrington, Connecticut, 06790
Pages 658-666 | Published online: 25 Mar 2008

Citations (19)

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Read on this site (3)

J. R. Nygaard, M. Rawson, P. Danson & H. K. D. H. Bhadeshia. (2014) Bearing steel microstructures after aircraft gas turbine engine service. Materials Science and Technology 30:15, pages 1911-1918.
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Nurul Farhana Mohd Yusof & Zaidi Mohd Ripin. (2014) Analysis of Surface Parameters and Vibration of Roller Bearing. Tribology Transactions 57:4, pages 715-729.
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Y.P. Chiu. (1999) An Approach for Fatigue Cracking Failure Prediction of Ceramic Rolling Elements under Hertzian Loading. Tribology Transactions 42:2, pages 289-295.
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Articles from other publishers (16)

Steven J. Lorenz, Farshid Sadeghi, Hitesh K. Trivedi & Mathew S. Kirsch. (2023) Investigation into rolling contact fatigue performance of aerospace bearing steels. International Journal of Fatigue 172, pages 107646.
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B. Wainwright, H. Takeuchi, T. Makino & A. Kadiric. (2022) The influence of Λ ratio and surface roughness on the initiation and progression of micropitting damage. Wear 508-509, pages 204473.
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Steven J. Lorenz, Farshid Sadeghi & Chinpei Wang. (2022) Effect of spatial hardness distribution in rolling contact fatigue performance of bearing contacts. Tribology International 171, pages 107550.
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Steven J. Lorenz, Farshid Sadeghi, Hitesh K. Trivedi, Mathew S. Kirsch & Chinpei Wang. (2021) Effects of Grain Refinement on Rolling Contact Fatigue in Bearing Contacts. Journal of Tribology 143:12.
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Jun Song, Dong Hyuk Kim & Seong Han Kim. (2021) Development of a real-time spalling measurement system for ball-type constant velocity joints. Measurement 186, pages 110109.
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Steven J. Lorenz, Farshid Sadeghi, Hitesh K. Trivedi, Lewis Rosado, Mathew S. Kirsch & Chinpei Wang. (2021) An approach for predicting failure mechanism in rough surface rolling contact fatigue. Tribology International 158, pages 106923.
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Anil Dhanola & H.C. Garg. (2020) Tribological challenges and advancements in wind turbine bearings: A review. Engineering Failure Analysis 118, pages 104885.
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I E Zvonarev & S L Ivanov. (2016) Analysis of changes in hardness of a metal surface layer in areas of high stress and methods of determining residual life of parts for mining machines. IOP Conference Series: Materials Science and Engineering 116, pages 012006.
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I.E. Zvonarev, S.L. Ivanov & D.I. Shishlyannikov. (2016) Estimation of the Residual Operation Life Period of Mechanical Transmissions of Mining Machines by Means of Superficial Metal Hardness Measurement in Increased Wear Areas of Their Parts. Procedia Engineering 150, pages 618-625.
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Richard J. Vickerman & Craig Tipton. 2012. Automotive Lubricants and Testing. Automotive Lubricants and Testing 255 272 .
Michael N. Kotzalas & Gary L. Doll. (2010) Tribological advancements for reliable wind turbine performance. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences 368:1929, pages 4829-4850.
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Lim Boon Kheng, Koay Loke Kean & Horizon Gitano-Briggs. (2010) Design optimization and fatigue testing of an electronically-driven mechanically-resonant cantilever spring mechanism. Materials & Design 31:8, pages 4023-4028.
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D. Y. Hua, K. Farhang & L. E. Seitzman. (2007) A Multi-Scale System Analysis and Verification for Improved Contact Fatigue Life Cycle of a Cam-Roller System. Journal of Tribology 129:2, pages 321-325.
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M Jacobson & F Gunnberg. (2016) Effects of hard turning on the fatigue life of ball bearings. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture 218:12, pages 1855-1859.
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JING QIU, BRIJ B. SETH, STEVEN Y. LIANG & CHENG ZHANG. (2002) DAMAGE MECHANICS APPROACH FOR BEARING LIFETIME PROGNOSTICS. Mechanical Systems and Signal Processing 16:5, pages 817-829.
Crossref
Y. P. Chiu. A Reassessment of Lambda Ratio as a Bearing Surface Fatigue Performance Indicator. A Reassessment of Lambda Ratio as a Bearing Surface Fatigue Performance Indicator.

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