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Unsteady-state brush theory

Luigi Romano, Fredrik Bruzelius, Bengt Jacobson

2020Vehicle System Dynamics29 citationsDOIOpen Access PDF

Abstract

This paper deals with unsteady-state brush tyre models. Starting from tyre-road contact theory, we provide a full analytical solution to the partial differential equations (PDEs) describing the bristle deformation in the adhesion region of the contact patch. We show that the latter can be divided in two different regions, corresponding to two different domains for the solution of the governing PDEs of the system. In the case of constant sliding speed inputs, the steady-state solution coincides with the one provided by the classic steady-state brush theory. For a rectangular contact patch and parabolic pressure distribution, the time trend of the shear stresses is investigated. For the pure interactions (longitudinal, lateral and camber), some important conclusions are drawn about the relaxation length. Finally, an approach to derive simplified formulae for the tangential forces arising in the contact patch is introduced; the tyre formulae obtained by using the proposed approach are not based on the common slip definition, and can be employed when the rolling speed approaches zero. The outlined procedure is applied to the cases of linear tyre forces and parabolic pressure distribution.

Topics & Concepts

BrushState (computer science)EngineeringMechanical engineeringForensic engineeringComputer scienceAlgorithmAdhesion, Friction, and Surface InteractionsMechanical stress and fatigue analysisVibration and Dynamic Analysis
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