The passage of a train over a railway bridge has been recognised as an important source of noise in urban environments. To help find means to reduce it, an accurate model for this noise is required. Prediction of the bridge vibration is the main challenge in determining the structure-borne noise. The computational cost of such an analysis using conventional Finite Element (FE) method is prohibitive, due to the enormous number of modes of vibration in the frequency range of interest. Statistical Energy Analysis (SEA) has therefore been used to model bridges in the past. However, this can be difficult to apply to bridges that have complex cross-sectional geometry. Here, a Waveguide Finite Element (WFE) method is used to predict the vibration of a concrete box-section railway bridge. The computational cost of this analysis is acceptable and the bridge geometry can still be accounted fully. The approach taken to include the track structure found on this bridge in the WFE model has been developed from a separate study of this track-form.
Prediction and measurement of vibration on a modern concrete railway bridge fitted with resilient rail fasteners
2012
9 Seiten
Aufsatz (Konferenz)
Englisch
British Library Conference Proceedings | 2012
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