Litcius/Paper detail

Experimental investigation of tyre–road friction considering topographical roughness variation and flash temperature

Kyriakos Grigoriadis, Georgios Mavros, James Knowles, Antonios Pezouvanis

2023Tribology International15 citationsDOIOpen Access PDF

Abstract

Predicting tyre–road friction requires various inputs that are known with differing levels of confidence. This paper studies the prediction and associated experimental confirmation of rubber friction on real roads at high sliding speeds. Friction predictions are obtained from Persson’s flash temperature model: the topography of the road surface is measured using an optical profilometer, while the rubber’s viscoelastic modulus is obtained through Dynamic Mechanical Analysis. A newly developed friction tester performs in-situ friction measurements, while controlling and monitoring bulk and contact surface temperature, respectively. Local topographical road roughness variations were identified as a major contributing factor leading to predicted friction variations of over 50%, while the flash temperature predictions showed good correlation with temperature measurements from near the rubber–road interface.

Topics & Concepts

ProfilometerDynamical frictionNatural rubberMaterials scienceViscoelasticityFlash (photography)Surface finishSurface roughnessDynamic modulusModulusRoad surfaceComposite materialMechanicsDynamic mechanical analysisEnvironmental scienceOpticsPolymerPhysicsAdhesion, Friction, and Surface InteractionsBrake Systems and Friction AnalysisGear and Bearing Dynamics Analysis