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Contact Analysis and Friction Prediction of Non-Gaussian Random Surfaces

Jinzhao Ren, Huiqun Yuan

2022Applied Sciences11 citationsDOIOpen Access PDF

Abstract

Engineering surfaces exhibit asymmetrical height distributions due to certain types of surface finishing and running-in process. This non-Gaussian surface reflects different contact performances and tribological properties. In this paper, the influence of non-Gaussian surface parameters on contact performance and friction is investigated. First, the computer program for generating rough surfaces with given parameters is developed; then, contact analysis for rough surfaces are conducted through a deterministic contact model; finally, friction coefficient can be derived from friction model using the results of the contact model. The simulation analyses indicate that the skewness and amplitude of non-Gaussian surface have significant effects on contact performance and friction. The contact characteristic parameters and friction coefficient become slightly changed when kurtosis becomes relatively large.

Topics & Concepts

KurtosisSkewnessGaussianMaterials scienceTribologyFriction coefficientSurface (topology)Coefficient of frictionRough surfaceAmplitudeMechanicsMathematicsComposite materialOpticsPhysicsStatisticsGeometryQuantum mechanicsAdhesion, Friction, and Surface InteractionsTribology and Lubrication EngineeringGear and Bearing Dynamics Analysis