Litcius/Paper detail

Numerical Model Updating and Validation of a Truss Railway Bridge considering Train‐Track‐Bridge Interaction Dynamics

Mohammad Sadegh Ayubirad, Shervan Ataei, Mosabreza Tajali

2024Shock and Vibration11 citationsDOIOpen Access PDF

Abstract

Vibration‐based structural health monitoring (SHM) is crucial in assessing the integrity of large civil infrastructures. Developing an accurate finite element (FE) model that effectively reflects the dynamics of a full‐scale structure is essential for the success of vibration‐based SHM. This study introduces a comprehensive framework for FE model updating and validation of a truss railway bridge. The framework integrates operational modal analysis, a sensitivity‐based FE model updating approach, and the dynamics of train‐track‐bridge interaction (TTBI). The research focused on a 36‐meter‐long steel truss railway bridge, which underwent testing under both static and dynamic loads caused by train transit. For modal identification, the study utilized the covariance‐driven stochastic subspace identification (Cov‐SSI) method in conjunction with hierarchical density‐based spatial clustering of applications with noise (HDBSCAN). Results indicated that the sensitivity‐based FE model updating significantly enhanced model accuracy, reducing the average frequency errors from 11% to much lower 3%. In addition, the FE model was validated through static load tests using an EMD GT26 locomotive. In the dynamic validation phase, the vertical TTBI was modelled. Comparatively, the acceleration time histories from the TTBI model, exhibiting a normalized mean absolute error ( n M A E ) of 36%, aligned more closely with actual measurements than those from the basic moving load model, which had a higher n M A E of 45%. This framework provides an accurate numerical platform for load rating and SHM activities.

Topics & Concepts

Bridge (graph theory)Sensitivity (control systems)Structural engineeringStructural health monitoringTrussModalTruss bridgeFinite element methodTrack (disk drive)AccelerationVibrationEngineeringSubspace topologyComputer scienceNoise (video)Operational Modal AnalysisModal analysisMechanical engineeringAcousticsArtificial intelligenceElectronic engineeringMedicineClassical mechanicsPolymer chemistryChemistryInternal medicinePhysicsImage (mathematics)Structural Health Monitoring TechniquesRailway Engineering and DynamicsStructural Engineering and Vibration Analysis