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How can the effect of particle surface roughness on the contact area be predicted?

Sadegh Nadimi, Vasileios Angelidakis, M. Otsubo, Ali Ghanbarzadeh

2022Computers and Geotechnics13 citationsDOIOpen Access PDF

Abstract

This paper describes a systematic study of the effect of fractal rough surfaces on the contact area with the aim of advancing contact constitutive laws used in the Discrete Element Method. An in-house Boundary Element code is adopted to investigate the mechanical behaviour of computer-generated surface roughness. Surfaces are generated to have methodically controlled root mean square height (Sq), root mean square gradient (Sdq), short wavevector (q0), large wavevector (q1), Hurst exponent (H) and fractal dimension (Df). The effect of each parameter on the contact area is investigated. Two recently proposed analytical solutions in tribology (i.e. Persson-Tosatti and Pastewka-Robbins) are applied to predict the real contact area. A parameter based on Sq, q0, and H is proposed and its sensitivity for real contact area prediction is demonstrated. Surfaces of natural sand are simulated and their mechanical response shows similar trend as the computer-generated surfaces, albeit more complex.

Topics & Concepts

Contact areaSurface finishFractal dimensionSurface roughnessFractalRoot mean squareHurst exponentMechanicsContact analysisTribologySurface (topology)Particle (ecology)Square rootBoundary (topology)Materials scienceSensitivity (control systems)Contact forceFinite element methodGeometryMathematical analysisMathematicsPhysicsEngineeringStructural engineeringClassical mechanicsComposite materialGeologyStatisticsElectronic engineeringOceanographyQuantum mechanicsAdhesion, Friction, and Surface InteractionsTribology and Lubrication EngineeringGear and Bearing Dynamics Analysis
How can the effect of particle surface roughness on the contact area be predicted? | Litcius