Abstract

Within the framework of stochastic surface roughness representation, a recently derived Reynolds-type equation has been employed by the authors to compute the average values of a bearing’s operational parameters. To enhance the understanding of hydrodynamic lubrication phenomena in rough bearings, it is necessary to account for the stochastic nature of these parameters by evaluating their higher-order moments, such as variance. This study aims to derive and quantify equations for the computation of these higher-order moments. Specifically, the article presents equations for the variance of key operational parameters, including pressure, load carrying capacity, friction force, and friction coefficient, in both finite width slider and journal bearings. Furthermore, Raimondi-Boyd-like charts are developed for various L/B and L/D ratios, across a wide range of stator and rotor roughness standard deviations, applicable to both bearing types.

Issue Section:
Hydrodynamics and Elastohydrodynamic Lubrication
Keywords:
stochastic Reynolds equation, finite difference method, generalized Stein’s lemma, variation of operational parameters, Raimondi–Boyd like diagrams, bearings, hydrodynamic lubrication, journal bearings, surface roughness and asperities
Topics:
Bearings, Friction, Journal bearings, Load bearing capacity, Pressure, Surface roughness, Stress, Slider bearings

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