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The effect of track unevenness correlation on railway induced ground vibration

The effect of track unevenness correlation on railway induced ground vibration
The effect of track unevenness correlation on railway induced ground vibration
This paper focuses on quantifying the level of correlation of the track loading at the wheel/rail interface due to rail unevenness and its influence on predictions of ground vibration. The extent to which the unevenness of the two rails is correlated has been estimated from measurements of track geometry obtained with track recording vehicles for six different tracks. It was found that for wavelengths longer than about 3 m the unevenness of the two rails can be considered to be strongly correlated and in phase. To investigate the effect of this on ground vibration, a railway model that works in the wavenumber-frequency domain and includes separate inputs on the two rails has been used. In this model, the track is assumed as an infinite invariant linear structure resting on an elastic stratified half-space. This is excited by the gravitational loading of a passing train and the irregularity of the contact surfaces between the wheels and the rails. The railway model can account or discard the effect of load correlations on the two rails beside the effects of variation of the tractions across the width of the track-ground interface and the vehicle sprung mass, as well as the roll motion of the sleepers and the axle. A comparative analysis is carried out on the influence of these factors on the response predictions using numerical simulations. It is shown that, when determining the vibration in the free field, it is important to include in the model the non-symmetrical loading at the two rails that occurs for unevenness wavelengths shorter than about 3 m.
Ground-borne vibration, track unevenness correlation, TRC measurements, frequency-wavenumber domain model
1950-1971
Institute of Structural Analysis and Antiseismic Research
Ntotsios, Evangelos
877c3350-0497-4471-aa97-c101df72e05e
Thompson, David
bca37fd3-d692-4779-b663-5916b01edae5
Hussein, Mohammed F.M
3535c131-1710-4edc-a4a1-8fe67dee3f67
Papadrakakis, M.
Fragiadakis, M.
Ntotsios, Evangelos
877c3350-0497-4471-aa97-c101df72e05e
Thompson, David
bca37fd3-d692-4779-b663-5916b01edae5
Hussein, Mohammed F.M
3535c131-1710-4edc-a4a1-8fe67dee3f67
Papadrakakis, M.
Fragiadakis, M.

Ntotsios, Evangelos, Thompson, David and Hussein, Mohammed F.M (2017) The effect of track unevenness correlation on railway induced ground vibration. Papadrakakis, M. and Fragiadakis, M. (eds.) In COMPDYN 2017: Computational Methods in Structural Dynamics and Earthquake Engineering. vol. 1, Institute of Structural Analysis and Antiseismic Research. pp. 1950-1971 .

Record type: Conference or Workshop Item (Paper)

Abstract

This paper focuses on quantifying the level of correlation of the track loading at the wheel/rail interface due to rail unevenness and its influence on predictions of ground vibration. The extent to which the unevenness of the two rails is correlated has been estimated from measurements of track geometry obtained with track recording vehicles for six different tracks. It was found that for wavelengths longer than about 3 m the unevenness of the two rails can be considered to be strongly correlated and in phase. To investigate the effect of this on ground vibration, a railway model that works in the wavenumber-frequency domain and includes separate inputs on the two rails has been used. In this model, the track is assumed as an infinite invariant linear structure resting on an elastic stratified half-space. This is excited by the gravitational loading of a passing train and the irregularity of the contact surfaces between the wheels and the rails. The railway model can account or discard the effect of load correlations on the two rails beside the effects of variation of the tractions across the width of the track-ground interface and the vehicle sprung mass, as well as the roll motion of the sleepers and the axle. A comparative analysis is carried out on the influence of these factors on the response predictions using numerical simulations. It is shown that, when determining the vibration in the free field, it is important to include in the model the non-symmetrical loading at the two rails that occurs for unevenness wavelengths shorter than about 3 m.

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More information

Accepted/In Press date: 31 March 2017
e-pub ahead of print date: 1 September 2017
Published date: September 2017
Keywords: Ground-borne vibration, track unevenness correlation, TRC measurements, frequency-wavenumber domain model

Identifiers

Local EPrints ID: 418023
URI: http://eprints.soton.ac.uk/id/eprint/418023
PURE UUID: 97fead4a-690b-4446-9920-502ac805d15d
ORCID for Evangelos Ntotsios: ORCID iD orcid.org/0000-0001-7382-0948
ORCID for David Thompson: ORCID iD orcid.org/0000-0002-7964-5906

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Date deposited: 20 Feb 2018 17:32
Last modified: 16 Mar 2024 04:16

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Contributors

Author: David Thompson ORCID iD
Author: Mohammed F.M Hussein
Editor: M. Papadrakakis
Editor: M. Fragiadakis

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