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A numerical study on the impact of lubricant rheology and surface topography on heavily loaded non-conformal contacts

Deepak K. Prajapati, Dilshad Ahmad, Jitendra Kumar Katiyar, Chander Prakash, Rafic M. Ajaj

2023Surface Topography Metrology and Properties10 citationsDOIOpen Access PDF

Abstract

Abstract The increasing requirement of high-power density (power throughput/ weight) in modern day machines lead to thin film lubrication condition in various machine components (rolling element bearings, gears, cams, etc,) due to severe loading conditions. Surface roughness features and lubricant rheology plays a vital role in thin film lubrication, and significantly affects the lubrication performance and lifetime of machine components. The present work demonstrates surface topography and lubricant rheology effects on the traction coefficient for heavily loaded non-conformal contacts. The load-sharing concept considering elastic-plastic deformation of asperities, and Carreau shear-thinning rheological model is employed to describe the dry rough contacts and non-Newtonian behavior of lubricant. An influence of surface topography parameters such as roughness, skewness, kurtosis, and pattern ratio on the traction coefficient is discussed. From results, it is found that among different surface topographies, negatively skewed surfaces having isotropic surface pattern exhibit minimum traction coefficient. The load share function and the critical rolling speed are determined for various surface topographies which provides further insights into the surface topography effect on traction coefficient. The findings of present study are noteworthy as they provide a theoretical basis for an assessment of the lubrication performance of heavily loaded non-conformal contacts.

Topics & Concepts

LubricantLubricationMaterials scienceTraction (geology)RheologySurface roughnessIsotropyComposite materialAsperity (geotechnical engineering)Surface finishShear thinningShearing (physics)MechanicsMechanical engineeringOpticsEngineeringPhysicsGear and Bearing Dynamics AnalysisTribology and Lubrication EngineeringAdhesion, Friction, and Surface Interactions
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