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contributor authorLiu, Zhiqiang
contributor authorGangopadhyay, Arup
date accessioned2017-05-09T01:33:40Z
date available2017-05-09T01:33:40Z
date issued2016
identifier issn0742-4787
identifier othertrib_138_02_021506.pdf
identifier urihttp://yetl.yabesh.ir/yetl/handle/yetl/162647
description abstractCombining the contact model of elasticlayered solid with the concept of asperity contact in elastohydrodynamic lubrication (EHL), a mixedlubrication model is presented to predict friction coefficient over rough surfaces with/without an elasticlayered medium under entire lubrication regimes. Solution of contact problems for elasticlayered solids is presented based upon the classical model of Greenwood and Williamson (GW) in conjunction with Chen and Engel's analysis. The effects of the Young's modulus ratio of the layer to substrate and the thickness of the layer on the elastic real area of contact and contact load for a fixed dimensionless separation are studied using the proposed method, which is used for the asperities having contact with an elastic coating. Coefficient of friction with elasticlayered solids in boundary lubrication is calculated in terms of Rabinowicz's findings and elasticlayered solutions of Gupta and Walowit. The effect of rough contacts with an elastic layer on friction coefficient in lubrication regimes has been analyzed. Variations in plasticity index دˆ significantly affect friction coefficients in boundary and mixed lubrications. For a large value of دˆ, the degree of plastic contact exhibits a stronger dependence of the mean separation or film thickness than the roughness, and for a small value of دˆ, the opposite result is true. The effect of governing parameters, such as inlet oil viscosity at ambient pressure, pressure–viscosity coefficient, combined surface roughness, and El/E2 on friction coefficient, has been investigated. Simulations are shown to be in good agreement with the experimental friction data.
publisherThe American Society of Mechanical Engineers (ASME)
titleFriction Reduction in Lubricated Rough Contacts: Numerical and Experimental Studies
typeJournal Paper
journal volume138
journal issue2
journal titleJournal of Tribology
identifier doi10.1115/1.4031752
journal fristpage21506
journal lastpage21506
identifier eissn1528-8897
treeJournal of Tribology:;2016:;volume( 138 ):;issue: 002
contenttypeFulltext


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