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Experimental validation of a non-linear train-track-bridge dynamic model of a stone arch railway bridge under freight traffic

Rúben Silva, Diogo Ribeiro, Cristina Costa, António Arêde, Rui Calçada

2022International Journal of Rail Transportation16 citationsDOIOpen Access PDF

Abstract

This article presents the validation of a non-linear FE numerical model of a multi-span stone arch railway bridge based on experimental tests and under in-service freight trains. Static loading tests allow evaluating the bridge response in terms of vertical displacements in the arches, opening/closure deformations on specific block joints of the arches, and vertical compressive stress variations in the piers. The bridge FE model is developed by combining the potentialities of a global continuous homogeneous model, based on FEM and Drucker-Prager model, and a local modelling approach based on a dedicated non-linear contact model. The freight vehicle modelling is based on a flexible FE approach, and the validation of the dynamic behaviour of the train-bridge system involved the comparison between numerical and experimental responses. All the numerical responses are in very good agreement with the experimental responses. Finally, a simulation of the dynamic behaviour of the train-bridge system is performed for realistic scenarios of freight traffic considering speeds between 40 and 140 km/h.

Topics & Concepts

ArchBridge (graph theory)Structural engineeringEngineeringTrack (disk drive)Finite element methodTrainArch bridgeMechanical engineeringGeographyCartographyMedicineInternal medicineRailway Engineering and DynamicsStructural Engineering and Vibration AnalysisStructural Behavior of Reinforced Concrete
Experimental validation of a non-linear train-track-bridge dynamic model of a stone arch railway bridge under freight traffic | Litcius