2018
DOI: 10.1177/1350650118758741
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Study on the normal contact stiffness of the fractal rough surface in mixed lubrication

Abstract: In this paper, an elastic interface model is developed to theoretically analyze the contact stiffness of a mixed lubrication surface where the solid and the lubricant contacts have to-be-determined contributions to the whole contact stiffness. The interfacial contact stiffness is composed of the solid contact stiffness and the lubricant contact stiffness, in which the two components are associated with each other via the equivalent thickness of lubricant. Based on the combination of two widely acknowledged ult… Show more

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Cited by 23 publications
(11 citation statements)
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“…The interplay between body temperature and lubricant rheology has been found to affect film thickness and traction in a complicated way [584]. Transient EHL solutions reveal more details of time-dependent pressure and film thickness under varying speeds or loads [588−591], and contact stiffness and damping have been defined to characterize dynamic responses of lubricating films [592,593]. Many researchers have tried to integrate multifactorial considerations into one sophisticated numerical model so that the effects resulting from several factors can be analyzed simultaneously [584−588].…”
Section: Recent Developments In Numerical Analysis Of Ehlmentioning
confidence: 99%
“…The interplay between body temperature and lubricant rheology has been found to affect film thickness and traction in a complicated way [584]. Transient EHL solutions reveal more details of time-dependent pressure and film thickness under varying speeds or loads [588−591], and contact stiffness and damping have been defined to characterize dynamic responses of lubricating films [592,593]. Many researchers have tried to integrate multifactorial considerations into one sophisticated numerical model so that the effects resulting from several factors can be analyzed simultaneously [584−588].…”
Section: Recent Developments In Numerical Analysis Of Ehlmentioning
confidence: 99%
“…For the lubricated rough surfaces, the normal interfacial stiffness consists of the micro-asperity contact and the lubricant part, acting in parallel (Dwyer-Joyce et al, 2011; Gonzalez-Valadez et al, 2005; Sun et al, 2018; Wang et al, 2018). The normal stiffness of the lubricated interface can be written aswhere k s is the solid component of the normal contact stiffness per unit and k l is the lubricant component of the contact stiffness.…”
Section: Contact Modeling Of the Lubricated Rough Interfacementioning
confidence: 99%
“…On the other hand, Majumbar and Bhushan [6] proposed a theoretical model (M-B model) from the perspective of fractal geometry, which considered the contact characteristics of joint surfaces, and it also solved the problem of scale dependence in statistical models. Based on the above work, the research on the contact characteristics of joint surfaces has been further improved, such as considering multifractal domain [7], elastic-plastic deformation characteristics [8], surface processing methods [9], surface finish [10], lubrication [11] and so on. Also, the research on normal contact stiffness of joint surfaces is gradually developed.…”
Section: Introductionmentioning
confidence: 99%