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A multibody non-linear model of the post-derailment dynamics of a railway vehicle

Matteo Santelia, Francesco Mazzeo, Egidio Di Gialleonardo, Stefano Melzi, Stefano Bruni

2023Vehicle System Dynamics10 citationsDOIOpen Access PDF

Abstract

This paper presents a multibody model of the post-derailment dynamics of a railway vehicle and its impact with a derailment containment wall (DCW) built aside the line and demonstrates the use of the model in the context of the structural sizing of devices intended to mitigate derailment effects. With respect to existing multibody models of railway vehicle dynamics, the innovative features of this model are a new contact model capable to provide a plausible prediction of the derailment process despite a simple and computationally efficient formulation, and the model of the interaction between the derailed vehicle and the impacted derailment containment structure, the latter being described by a Finite Element Model. Results from the model are compared to an established multibody software for a non-derailment case, and then a comparison is performed with a measurement from a derailment experiment published in the scientific literature, finding in both cases satisfactory agreement. The model is then applied to analyse a derailment scenario caused by the sudden failure of an axle for a locomotive vehicle travelling at 300 km/h in a HS curve, deriving the peak values of the impact force and bending moment at the base of the derailment containment wall.

Topics & Concepts

DerailmentEngineeringAxleMultibody systemStructural engineeringVehicle dynamicsContainment (computer programming)Finite element methodAutomotive engineeringComputer scienceMechanical engineeringProgramming languageTrack (disk drive)PhysicsQuantum mechanicsRailway Engineering and DynamicsMechanical stress and fatigue analysisDynamics and Control of Mechanical Systems
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