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A finite element thermomechanical analysis of the development of wheel polygonal wear

Chunyan He, Zhen Yang, Pan Zhang, Shaoguang Li, Meysam Naeimi, Rolf Dollevoet, Zili Li

2024Tribology International22 citationsDOIOpen Access PDF

Abstract

Polygonal wear is a type of damage commonly observed on the railway wheel tread. It induces wheel-rail impacts and consequent train/track components failure. This study presents a finite element (FE) thermomechanical wheel-rail contact model, which is able to cope with the three possible generation and development mechanisms of polygonal wear: initial defects, thermal effect, and structural dynamics. The polygonal wear-induced impact contact and further development of wear are simulated. The simulated elastic contact solutions are verified against the program CONTACT. Different material properties (elastic, elasto-plastic and elasto-plastic-thermo, i.e. with thermal softening) and initial polygonal profiles are then applied to the FE model to investigate the influence of wheel/rail material and wear amplitude on wheel-rail contact stress and wear development. The simulations indicate that the wheel-rail impact-induced temperature may reach up to 362 ℃ at the contact interface, and the high temperature at the contact area influences wheel-rail contact stress and wear depth.

Topics & Concepts

TreadFinite element methodMaterials scienceSofteningContact mechanicsThermalComposite materialHeat generationContact areaStructural engineeringStress (linguistics)Development (topology)EngineeringNatural rubberPhilosophyMathematical analysisMeteorologyPhysicsThermodynamicsMathematicsLinguisticsRailway Engineering and DynamicsMechanical stress and fatigue analysisAdhesion, Friction, and Surface Interactions
A finite element thermomechanical analysis of the development of wheel polygonal wear | Litcius