Simulations of roughness growth on railway rails
Simulations of roughness growth on railway rails
A model for the prediction of the initiation and growth of roughness on the rail is presented. The vertical interaction between a train and the track is calculated as a time history for single or multiple wheels moving on periodically supported rails, using a wavenumber-based approach. This vertical dynamic wheel/rail force arises from the varying stiffness due to discrete supports (i.e. parametric excitation) and the roughness excitation on the railhead. The tangential contact problem between the wheel and rail is modelled using an unsteady two-dimensional approach and also using the three-dimensional contact model, FASTSIM. This enables the slip and stick regions in the contact patch to be identified from the input geometry and creepage between the wheel and rail. The long-term wear growth is then predicted by applying repeated passages of the vehicle wheelsets, as part of an iterative solution.
819-829
Sheng, X.
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Thompson, D.J.
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Jones, C.J.C.
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Xie, G.
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Iwnicki, S.D.
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Allen, P.
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Hsu, S.S.
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2006
Sheng, X.
1d5fc91c-24df-4515-9c3c-40dfbc903db3
Thompson, D.J.
bca37fd3-d692-4779-b663-5916b01edae5
Jones, C.J.C.
695ac86c-2915-420c-ac72-3a86f98d3301
Xie, G.
42847e46-af2a-492d-9436-8d932dfbc8de
Iwnicki, S.D.
30eeb400-00df-462b-8d3e-63f48e648ac3
Allen, P.
954f0195-4fae-47d8-8319-ef205e0581c4
Hsu, S.S.
8c2ae942-3937-4d0e-ab44-052bfae5c0f4
Sheng, X., Thompson, D.J., Jones, C.J.C., Xie, G., Iwnicki, S.D., Allen, P. and Hsu, S.S.
(2006)
Simulations of roughness growth on railway rails.
Journal of Sound and Vibration, 293 (3-5), .
(doi:10.1016/j.jsv.2005.08.050).
Abstract
A model for the prediction of the initiation and growth of roughness on the rail is presented. The vertical interaction between a train and the track is calculated as a time history for single or multiple wheels moving on periodically supported rails, using a wavenumber-based approach. This vertical dynamic wheel/rail force arises from the varying stiffness due to discrete supports (i.e. parametric excitation) and the roughness excitation on the railhead. The tangential contact problem between the wheel and rail is modelled using an unsteady two-dimensional approach and also using the three-dimensional contact model, FASTSIM. This enables the slip and stick regions in the contact patch to be identified from the input geometry and creepage between the wheel and rail. The long-term wear growth is then predicted by applying repeated passages of the vehicle wheelsets, as part of an iterative solution.
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Published date: 2006
Additional Information:
Proceedings of the Eigth International Workshop on Railway Noise
Organisations:
Dynamics Group
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Local EPrints ID: 43429
URI: http://eprints.soton.ac.uk/id/eprint/43429
ISSN: 0022-460X
PURE UUID: 66b98b44-7d87-4a45-85e5-3dcb5cbe4935
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Date deposited: 24 Jan 2007
Last modified: 16 Mar 2024 02:54
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Contributors
Author:
X. Sheng
Author:
C.J.C. Jones
Author:
G. Xie
Author:
S.D. Iwnicki
Author:
P. Allen
Author:
S.S. Hsu
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