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Modelling the improved behaviour of a switch installed on ballast-asphalt track

Modelling the improved behaviour of a switch installed on ballast-asphalt track
Modelling the improved behaviour of a switch installed on ballast-asphalt track
Switches and crossings are a critical part of railway infrastructure and have a complex superstructure, creating variable support and bending stiffness along the track length. These variable structural and loading effects lead to faster rates of track geometry deterioration compared with plain line. Multibody vehicle-track interaction and finite element models combined with empirical predictions have been used to assess the likely benefits and improvements of using an asphalt layer combined with reduced ballast depth under S&C, in terms of long-term ballast differential settlement as well as in terms of reducing stress levels within the ballast and the subgrade layers. The assessment is primarily comparative against a baseline scenario site without asphalt layer. The introduction of asphalt track configurations reduced the variation in trackbed stiffness and increased stiffness throughout the switch panel. Using stresses
calculated from finite element modelling, the ballast settlement was calculated using a semi-empirical equation to account for higher load cycles. The introduction of the asphalt layer reduced both maximum and differential settlements, originating from the ballast layer, in the switch panel with respect to the baseline scenario. Furthermore, the maximum stresses transmitted to the subgrade are generally reduced for both asphalt thicknesses with respect to the baseline.
Civil-Comp Press
Hawksbee, S.
b6f48feb-1fdd-443c-aa33-61f307740ec5
Grossoni, I.
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Bezin, Y.
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Lee, B.
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Watson, G.
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Milne, D.
d4b32737-f527-40e6-87e5-c089c83869d2
Le Pen, L.
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Abadi, T.
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Jorge, P.
2ac650ae-a2e1-4d19-b8c9-a338c0dc7af6
Pombo, J.
Hawksbee, S.
b6f48feb-1fdd-443c-aa33-61f307740ec5
Grossoni, I.
6d434ce5-6e6e-4594-97a6-a08f5bea4bcb
Bezin, Y.
4b1198fa-2275-4c4d-8f7a-5db40de9c4ec
Lee, B.
8baa1578-4841-4202-9faa-ccb88c62faa0
Watson, G.
c1408465-b364-4626-a078-4afc9047a5a9
Milne, D.
d4b32737-f527-40e6-87e5-c089c83869d2
Le Pen, L.
473657b4-383e-4048-9668-7ef4e9c2879f
Abadi, T.
5e3abda7-80eb-4f39-921e-fae1f472d238
Jorge, P.
2ac650ae-a2e1-4d19-b8c9-a338c0dc7af6
Pombo, J.

Hawksbee, S., Grossoni, I., Bezin, Y., Lee, B., Watson, G., Milne, D., Le Pen, L., Abadi, T. and Jorge, P. (2022) Modelling the improved behaviour of a switch installed on ballast-asphalt track. Pombo, J. (ed.) In Proceedings of the Fifth International Conference on Railway Technology: Research, Development and Maintenance. vol. CC1, Civil-Comp Press. 8 pp . (doi:10.4203/ccc.1.5.6).

Record type: Conference or Workshop Item (Paper)

Abstract

Switches and crossings are a critical part of railway infrastructure and have a complex superstructure, creating variable support and bending stiffness along the track length. These variable structural and loading effects lead to faster rates of track geometry deterioration compared with plain line. Multibody vehicle-track interaction and finite element models combined with empirical predictions have been used to assess the likely benefits and improvements of using an asphalt layer combined with reduced ballast depth under S&C, in terms of long-term ballast differential settlement as well as in terms of reducing stress levels within the ballast and the subgrade layers. The assessment is primarily comparative against a baseline scenario site without asphalt layer. The introduction of asphalt track configurations reduced the variation in trackbed stiffness and increased stiffness throughout the switch panel. Using stresses
calculated from finite element modelling, the ballast settlement was calculated using a semi-empirical equation to account for higher load cycles. The introduction of the asphalt layer reduced both maximum and differential settlements, originating from the ballast layer, in the switch panel with respect to the baseline scenario. Furthermore, the maximum stresses transmitted to the subgrade are generally reduced for both asphalt thicknesses with respect to the baseline.

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More information

Published date: 2022
Venue - Dates: Fifth International Conference on Railway Technology: Research, Development and Maintenance, , Montpellier, France, 2022-08-22 - 2022-08-25

Identifiers

Local EPrints ID: 485964
URI: http://eprints.soton.ac.uk/id/eprint/485964
DOI: doi:10.4203/ccc.1.5.6
PURE UUID: a7525832-f1f9-4356-b899-34726d106ac0
ORCID for T. Abadi: ORCID iD orcid.org/0000-0002-3640-5953

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Date deposited: 04 Jan 2024 17:30
Last modified: 18 Mar 2024 03:21

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Contributors

Author: S. Hawksbee
Author: I. Grossoni
Author: Y. Bezin
Author: B. Lee
Author: G. Watson
Author: D. Milne
Author: L. Le Pen
Author: T. Abadi ORCID iD
Author: P. Jorge
Editor: J. Pombo

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