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Non-Hertzian contact analysis of heavy-haul locomotive wheel/rail dynamic interactions under changeable friction conditions

Yunfan Yang, Xinru Guo, Yu Sun, Liang Ling, Tao Zhang, Kaiyun Wang, Wanming Zhai

2021Vehicle System Dynamics21 citationsDOI

Abstract

Wheel/rail dynamic interactions of heavy-haul locomotives are highly nonlinear and complicated due to large traction/braking loads, frequent anti-slip control and complex wheel/rail interface environment. The wheel/rail dynamic interactions, as well as the interface wear, have been broadly studied by means of Hertzian contact analysis, but the wheel/rail contact is essentially a non-Hertzian contact matter. This paper presents an investigation of wheel/rail dynamic interaction characteristics of a heavy-haul locomotive subjected to traction loads and dry/wet/greasy contact conditions by using a non-Hertzian contact method. For this purpose, a comprehensive dynamics model for heavy-haul train-track coupled system is established. A non-Hertzian normal contact algorithm and the corresponding creep algorithm are employed to solve wheel/rail normal and tangential contact forces, respectively. The locomotive wheel/rail dynamic interactions under different contact conditions and traction efforts are discussed. The simulation results indicate that traction effort and friction conditions have a significant influence on the contact forces, distributions of contact stress, and adhesion-slip region in the wheel/rail contact patch. The adhesion-slip distributions were found to reach full-slip under the lowest-adhesion conditions, and the wear index was found to be much greater than that under dry condition.

Topics & Concepts

Contact mechanicsTraction (geology)Slip (aerodynamics)Tractive forceContact patchEngineeringContact forceStructural engineeringCreepContact areaContact geometryVehicle dynamicsAutomotive engineeringMechanical engineeringMechanicsMaterials scienceFinite element methodTreadPhysicsComposite materialClassical mechanicsNatural rubberMathematicsGeometryAerospace engineeringRailway Engineering and DynamicsMechanical stress and fatigue analysisAdhesion, Friction, and Surface Interactions
Non-Hertzian contact analysis of heavy-haul locomotive wheel/rail dynamic interactions under changeable friction conditions | Litcius