Inclusions are common in bearing materials and are a primary site for subsurface fatigue crack initiation in rolling element bearings. This paper presents a new approach for computing the pressure, film thickness, and subsurface stresses in an elastohydrodynamic lubrication (EHL) contact when inclusions are present in the elastic half-space. The approach is based on using the discrete element method to determine the surface elastic deformation in the EHL film thickness equation. The model is validated through comparison with the smooth EHL line contact results generated using linear elasticity. Studies are then carried out to investigate the effects of size, location, orientation, and elastic properties of inclusions on the EHL pressure and film thickness profiles. Both inclusions that are stiffer than and/or softer than the base material are seen to have effects on the pressure distribution within the lubricant film and to give rise to stress concentrations. For inclusions that are stiffer than the base material (hard inclusions), the pressure distribution within the lubricant film behaves as though there is a bump on the surface, whereas for inclusions that are less stiff than the base material (soft inclusions), the pressure distribution behaves in a manner similar to that of a dented surface. Inclusions close to the surface cause significant changes in the contact stresses that are very significant considering the stress life relationship. For inclusions that are located deep within the surface, there is little change in the EHL pressure and film thickness.
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April 2007
Technical Papers
EHL Modeling for Nonhomogeneous Materials: The Effect of Material Inclusions
Trevor S. Slack,
Trevor S. Slack
Research Graduate Student
School of Mechanical Engineering,
Purdue University
, West Lafayette, IN 47906
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Nihar Raje,
Nihar Raje
Research Graduate Student
School of Mechanical Engineering,
Purdue University
, West Lafayette, IN 47906
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Farshid Sadeghi,
Farshid Sadeghi
Professor
School of Mechanical Engineering,
Purdue University
, West Lafayette, IN 47906
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Gary Doll,
Gary Doll
Chief Technologist
Tribology,
Timken Technology Center
, Canton, OH 44706
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Michael R. Hoeprich
Michael R. Hoeprich
Manager-Friction Management
Timken Technology Center
, Canton, OH 44706
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Trevor S. Slack
Research Graduate Student
School of Mechanical Engineering,
Purdue University
, West Lafayette, IN 47906
Nihar Raje
Research Graduate Student
School of Mechanical Engineering,
Purdue University
, West Lafayette, IN 47906
Farshid Sadeghi
Professor
School of Mechanical Engineering,
Purdue University
, West Lafayette, IN 47906
Gary Doll
Chief Technologist
Tribology,
Timken Technology Center
, Canton, OH 44706
Michael R. Hoeprich
Manager-Friction Management
Timken Technology Center
, Canton, OH 44706J. Tribol. Apr 2007, 129(2): 256-273 (18 pages)
Published Online: January 2, 2007
Article history
Received:
August 25, 2006
Revised:
January 2, 2007
Citation
Slack, T. S., Raje, N., Sadeghi, F., Doll, G., and Hoeprich, M. R. (January 2, 2007). "EHL Modeling for Nonhomogeneous Materials: The Effect of Material Inclusions." ASME. J. Tribol. April 2007; 129(2): 256–273. https://doi.org/10.1115/1.2540234
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