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Reducing wheel-rail interaction forces and roughness growth by application of rail dampers

Reducing wheel-rail interaction forces and roughness growth by application of rail dampers
Reducing wheel-rail interaction forces and roughness growth by application of rail dampers
High roughness growth occurs in situations with stiff vertical structural dynamics of the track. In particular the antiresonance above a sleeper at the pinned-pinned frequency has been identified as a wavelength fixing mechanism for short pitch corrugation. Rail damping devices (developed to reduce the noise from railway tracks) change the dynamic response of the rail, shifting the pinned-pinned frequency and smoothing the track receptance. Here, a simple time-stepping model is applied to calculate the interaction forces between wheel and rail for a track with and without rail dampers. The calculations show that rail dampers reduce dynamic interaction forces and shift the force spectrum to longer wavelengths. The interaction forces are used to predict the roughness growth after many wheel passages. Track without rail dampers is predicted to develop corrugation at the wavelength corresponding to the pinned-pinned frequency. With rail dampers the corrugation growth is reduced and shifted to a longer wavelength where its significance is diminished.
978-3-540-74892-2
392-398
Springer
Croft, B.E.
fd672c68-a205-49a0-80c6-c971aa94c7c0
Jones, C.J.C.
695ac86c-2915-420c-ac72-3a86f98d3301
Thompson, David J.
bca37fd3-d692-4779-b663-5916b01edae5
Schulte-Werning, Burkhard
Thompson, David J.
Gautier, Pierre-Etienne
Hanson, Carl
Hemsworth, Brian
Nelson, James
Maeda, Tatsuo
de Vos, Paul
Croft, B.E.
fd672c68-a205-49a0-80c6-c971aa94c7c0
Jones, C.J.C.
695ac86c-2915-420c-ac72-3a86f98d3301
Thompson, David J.
bca37fd3-d692-4779-b663-5916b01edae5
Schulte-Werning, Burkhard
Thompson, David J.
Gautier, Pierre-Etienne
Hanson, Carl
Hemsworth, Brian
Nelson, James
Maeda, Tatsuo
de Vos, Paul

Croft, B.E., Jones, C.J.C. and Thompson, David J. (2008) Reducing wheel-rail interaction forces and roughness growth by application of rail dampers. Schulte-Werning, Burkhard, Thompson, David J., Gautier, Pierre-Etienne, Hanson, Carl, Hemsworth, Brian, Nelson, James, Maeda, Tatsuo and de Vos, Paul (eds.) In Noise and Vibration Mitigation for Rail Transportation Systems: Proceedings of the 9th International Workshop on Railway Noise, Munich Germany 4-8 September 2007. vol. 99, Springer. pp. 392-398 . (doi:10.1007/978-3-540-74893-9_55).

Record type: Conference or Workshop Item (Paper)

Abstract

High roughness growth occurs in situations with stiff vertical structural dynamics of the track. In particular the antiresonance above a sleeper at the pinned-pinned frequency has been identified as a wavelength fixing mechanism for short pitch corrugation. Rail damping devices (developed to reduce the noise from railway tracks) change the dynamic response of the rail, shifting the pinned-pinned frequency and smoothing the track receptance. Here, a simple time-stepping model is applied to calculate the interaction forces between wheel and rail for a track with and without rail dampers. The calculations show that rail dampers reduce dynamic interaction forces and shift the force spectrum to longer wavelengths. The interaction forces are used to predict the roughness growth after many wheel passages. Track without rail dampers is predicted to develop corrugation at the wavelength corresponding to the pinned-pinned frequency. With rail dampers the corrugation growth is reduced and shifted to a longer wavelength where its significance is diminished.

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More information

Published date: 8 April 2008
Additional Information: Awarded best paper at IWRN9

Identifiers

Local EPrints ID: 148677
URI: http://eprints.soton.ac.uk/id/eprint/148677
DOI: doi:10.1007/978-3-540-74893-9_55
ISBN: 978-3-540-74892-2
PURE UUID: da4affa7-ceec-4432-a8a6-4e7980316b66
ORCID for David J. Thompson: ORCID iD orcid.org/0000-0002-7964-5906

Catalogue record

Date deposited: 28 Apr 2010 13:34
Last modified: 14 Mar 2024 02:40

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Contributors

Author: B.E. Croft
Author: C.J.C. Jones
Author: David J. Thompson ORCID iD
Editor: Burkhard Schulte-Werning
Editor: David J. Thompson
Editor: Pierre-Etienne Gautier
Editor: Carl Hanson
Editor: Brian Hemsworth
Editor: James Nelson
Editor: Tatsuo Maeda
Editor: Paul de Vos

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