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A S L E Transactions Volume 20, 1977 - Issue 2
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Original Articles

Contaminated Lubricants and Tapered Roller Bearing Wear

B. Fitzsimmons The Timken Company, Canton, Ohio, 44706
&
H. D. Clevenger The Timken Company, Canton, Ohio, 44706
Pages 97-107 | Published online: 25 Mar 2008

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William M. Needelman & Erwin V. Zaretsky. (2015) Recalibrated Equations for Determining Effect of Oil Filtration on Rolling Bearing Life. Tribology Transactions 58:5, pages 786-800.
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K. Mizuhara, M. Tomimoto & T. Yamamoto. (2000) Effect of Particles on Lubricated Friction. Tribology Transactions 43:1, pages 51-56.
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F. Ville & D. Nélias. (1999) An Experimental Study on the Concentration and Shape of Dents Caused by Spherical Metallic Particles in EHL Contacts©. Tribology Transactions 42:1, pages 231-240.
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W. Holzhauer. (1991) Surface Changes Around Large Raceway Indentations During Run-in of Tapered Roller Bearings. Tribology Transactions 34:3, pages 361-368.
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J.C. Hamer, R.S. Sayles & E. Ioannides. (1989) Particle Deformation and Counterface Damage When Relatively Soft Particles are Squashed Between Hard Anvils. Tribology Transactions 32:3, pages 281-288.
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Articles from other publishers (37)

Xudong Zhao & Yimin Zhang. (2023) Tribological and dynamic performance analysis of rolling bearings with varied surface textures operating under lubricant contamination. Wear 532-533, pages 205109.
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Wanjia Li, He Tang, Xiangxu Meng, Kun Shu, Tingjian Wang, Le Gu, Liqin Wang & Chuanwei Zhang. (2023) Effects of surface defects on rolling contact fatigue of M50 steel with consideration to both the transgranular and intergranular damage. Tribology International 188, pages 108775.
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Kurtis Hartlen. 2022. Standard Guides and Practices that Support the Lubricant Condition Monitoring Industry. Standard Guides and Practices that Support the Lubricant Condition Monitoring Industry 85 102 .
Chih-Ling Lin & Paul A. Meehan. (2021) Morphological and elemental analysis of wear debris naturally formed in grease lubricated railway axle bearings. Wear 484-485, pages 203994.
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Paras Kumar & Harish Hirani. (2021) Misalignment effect on gearbox failure: An experimental study. Measurement 169, pages 108492.
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Martin Hemmer, Kjell G. Robbersmyr, Tor I. Waag, Rolf Albrigtsen, Torfinn Pedersen, Thomas J. J. Meyer & Chloë Vercammen. 2020. Engineering Assets and Public Infrastructures in the Age of Digitalization. Engineering Assets and Public Infrastructures in the Age of Digitalization 750 757 .
Reza Gheisari, Kian Bashandeh & Andreas A Polycarpou. (2019) Effect of surface polishing on the tribological performance of hard coatings under lubricated three-body abrasive conditions. Surface Topography: Metrology and Properties 7:4, pages 045001.
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Zamzam Golmohammadi & Farshid Sadeghi. (2019) A Coupled Multibody Finite Element Model for Investigating Effects of Surface Defects on Rolling Contact Fatigue. Journal of Tribology 141:4.
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Fengxia Lu, Rupeng Zhu & Qiuju Fu. (2018) Wear depth calculation and influence factor analysis for groove ball bearing. MATEC Web of Conferences 211, pages 08002.
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C.H. HagerJr.Jr., W.M. Hannon & V.M. Bedekar. 2017. Friction, Lubrication, and Wear Technology. Friction, Lubrication, and Wear Technology 442 453 .
George K Nikas. (2017) Particle extrusion in elastohydrodynamic line contacts: Dynamic forces and energy consumption. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology 231:10, pages 1320-1340.
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George K. Nikas. (2016) Algebraic Equations for the Pile-Up Geometry in Debris Particle Indentation of Rolling Elastohydrodynamic Contacts. Journal of Tribology 138:2.
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George K. Nikas. (2015) Modeling Dark and White Layer Formation on Elastohydrodynamically Lubricated Steel Surfaces by Thermomechanical Indentation or Abrasion by Metallic Particles. Journal of Tribology 137:3.
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George K Nikas. (2013) Strain-rate effects on the plastic indentation and abrasion of elastohydrodynamic contacts by debris particles. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology 228:1, pages 22-45.
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George K Nikas. (2012) Debris particle indentation and abrasion of machine-element contacts: An experimentally validated, thermoelastoplastic numerical model with micro-hardness and frictional heating effects. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology 227:6, pages 579-617.
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George K Nikas. (2012) An experimentally validated numerical model of indentation and abrasion by debris particles in machine-element contacts considering micro-hardness effects. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology 226:5, pages 406-438.
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G K Nikas. (2010) A state-of-the-art review on the effects of particulate contamination and related topics in machine-element contacts. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology 224:5, pages 453-479.
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Eduard Antaluca & Daniel Nélias. (2008) Contact Fatigue Analysis of a Dented Surface in a Dry Elastic–Plastic Circular Point Contact. Tribology Letters 29:2, pages 139-153.
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R. Nilsson, U. Olofsson & K. Sundvall. (2005) Filtration and coating effects on self-generated particle wear in boundary lubricated roller bearings. Tribology International 38:2, pages 145-150.
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D. G. Grieve, R. S. Dwyer-Joyce & J. H. Beynon. (2005) Abrasive wear of railway track by solid contaminants. Proceedings of the Institution of Mechanical Engineers, Part F: Journal of Rail and Rapid Transit 215:3, pages 193-205.
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Ulf Olofsson, Hans Sjo¨stro¨m & Ulf Sjo¨din. (2000) Increased Wear Resistance of Roller Bearings Using Me-C: H Coated Rollers. Journal of Tribology 122:4, pages 682-688.
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D. Ne´lias & F. Ville. (2000) Detrimental Effects of Debris Dents on Rolling Contact Fatigue. Journal of Tribology 122:1, pages 55-64.
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B. Jacobson. 2000. Rolling Contact Phenomena. Rolling Contact Phenomena 355 394 .
M. Tomimoto & K. Mizuhara. 1999. Lubrication at the Frontier - The Role of the Interface and Surface Layers in the Thin Film and Boundary Regime, Proceedings of the 25th Leeds-Lyon Symposium on Tribology. Lubrication at the Frontier - The Role of the Interface and Surface Layers in the Thin Film and Boundary Regime, Proceedings of the 25th Leeds-Lyon Symposium on Tribology 789 795 .
E Richard BooserCharles Moyer. 1997. Tribology Data Handbook. Tribology Data Handbook.
U. Olofsson. (1997) An experimental investigation of wear and fatigue life reduction of boundary lubricated spherical roller thrust bearings. Tribology International 30:9, pages 685-692.
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W. Y. Ali, M. O. Mousa & M. I. Khashaba. (2006) Reducing the effect of three‐body abrasive wear by adding polymeric powder to lubricating grease. Lubrication Science 8:4, pages 359-368.
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Harvey P. Nixon & Harry Zantopulos. Observations of the Impact of Lubricant Additives on the Fatigue Life Performance of Tapered Roller Bearings. Observations of the Impact of Lubricant Additives on the Fatigue Life Performance of Tapered Roller Bearings.
J A Williams & A M Hyncica. (1992) Abrasive wear in lubricated contacts. Journal of Physics D: Applied Physics 25:1A, pages A81-A90.
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J.A. Williams & A.M. Hyncica. (1992) Mechanisms of abrasive wear in lubricated contacts. Wear 152:1, pages 57-74.
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. 1991. Rheology and Elastohydrodynamic Lubrication. Rheology and Elastohydrodynamic Lubrication 341 356 .
Ronald A. Mayville. (1990) Abrasive concentration effects on wear under reciprocating conditions. Wear 140:2, pages 359-367.
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Charles A. Moyer. The Influence of Debris on Bearing Performance: Chapter II. The Influence of Debris on Bearing Performance: Chapter II.
Richard L. Mehan. (1988) The wear of selected materials in mineral oil containing a solid contaminant. Wear 124:1, pages 65-85.
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C. A. Moyer. The Influence of Debris on Rolling Bearing Performance: Identifying the Relevant Factors. The Influence of Debris on Rolling Bearing Performance: Identifying the Relevant Factors.
Steven Odi-Owei & B.J. Roylance. (1986) The effect of solid contamination on the wear and critical failure load in a sliding lubricated contact. Wear 112:3-4, pages 239-255.
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Thomas S. Wanke. Investigation of Overall Efficiency in the First Few Hours of a Pump's Life. Investigation of Overall Efficiency in the First Few Hours of a Pump's Life.

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