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The effect of boundary conditions, model size and damping models in the finite element modelling of a moving load on a track/ground system

The effect of boundary conditions, model size and damping models in the finite element modelling of a moving load on a track/ground system
The effect of boundary conditions, model size and damping models in the finite element modelling of a moving load on a track/ground system
This record contains data for the article relating to the following abstract: An investigation is presented of the use of finite element models in the time domain to represent a load moving on a railway track on a flexible ground. A systematic study is carried out to compare different sizes and shapes of finite element mesh, different boundary conditions intended for suppressing reflections from the truncated model boundaries, and different models of soil damping. The purpose is to develop guidance to assist in selecting appropriate finite element models for moving load problems. To prevent reflections from the boundaries of the finite domain two approaches are compared. A 40 m radius hemispherical finite element mesh has been used first with infinite elements around the perimeter. This approach gives good results for a point harmonic load at the centre of the domain but some problems are highlighted when it is used for moving load calculations. An alternative approach has therefore been investigated based on a cuboid mesh. The base was fixed to prevent rigid-body motions of the model and, rather than use infinite elements at the sides, these were also fixed. It is shown that, provided that a suitable damping model is used, the spurious reflections from the sides of the model can be suppressed if the model is wide enough. On the other hand, if infinite elements are used, the calculations are found to be considerably more costly with little added benefit. Different models of soil damping are also compared. It is shown that a mass-proportional damping model gives a decay with distance that is independent of frequency, making it particularly suitable for this application. The length of model required to achieve steady state has been investigated. For a homogeneous half-space it is found that the required length increases considerably in the vicinity of the critical speed, up to 130 m in the present example, whereas for the layered ground a more modest length is sufficient for all speeds. The article was published as Shih, Jou-Yi, Thompson, David and Zervos, Antonios (2016) The effect of boundary conditions, model size and damping models in the finite element modelling of a moving load on a track/ground system. Soil Dynamics and Earthquake Engineering, 89, 1-37.
critical speed, infinite element, finite element method (FEM), moving load, time domain, half-space, layered ground, viscous damping
University of Southampton
Shih, Jou-Yi
4878809e-bddf-40b1-8488-72967805a1dc
Thompson, David
bca37fd3-d692-4779-b663-5916b01edae5
Zervos, Antonios
9e60164e-af2c-4776-af7d-dfc9a454c46e
Shih, Jou-Yi
4878809e-bddf-40b1-8488-72967805a1dc
Thompson, David
bca37fd3-d692-4779-b663-5916b01edae5
Zervos, Antonios
9e60164e-af2c-4776-af7d-dfc9a454c46e

Shih, Jou-Yi, Thompson, David and Zervos, Antonios (2016) The effect of boundary conditions, model size and damping models in the finite element modelling of a moving load on a track/ground system. University of Southampton doi:10.5258/SOTON/398121 [Dataset]

Record type: Dataset

Abstract

This record contains data for the article relating to the following abstract: An investigation is presented of the use of finite element models in the time domain to represent a load moving on a railway track on a flexible ground. A systematic study is carried out to compare different sizes and shapes of finite element mesh, different boundary conditions intended for suppressing reflections from the truncated model boundaries, and different models of soil damping. The purpose is to develop guidance to assist in selecting appropriate finite element models for moving load problems. To prevent reflections from the boundaries of the finite domain two approaches are compared. A 40 m radius hemispherical finite element mesh has been used first with infinite elements around the perimeter. This approach gives good results for a point harmonic load at the centre of the domain but some problems are highlighted when it is used for moving load calculations. An alternative approach has therefore been investigated based on a cuboid mesh. The base was fixed to prevent rigid-body motions of the model and, rather than use infinite elements at the sides, these were also fixed. It is shown that, provided that a suitable damping model is used, the spurious reflections from the sides of the model can be suppressed if the model is wide enough. On the other hand, if infinite elements are used, the calculations are found to be considerably more costly with little added benefit. Different models of soil damping are also compared. It is shown that a mass-proportional damping model gives a decay with distance that is independent of frequency, making it particularly suitable for this application. The length of model required to achieve steady state has been investigated. For a homogeneous half-space it is found that the required length increases considerably in the vicinity of the critical speed, up to 130 m in the present example, whereas for the layered ground a more modest length is sufficient for all speeds. The article was published as Shih, Jou-Yi, Thompson, David and Zervos, Antonios (2016) The effect of boundary conditions, model size and damping models in the finite element modelling of a moving load on a track/ground system. Soil Dynamics and Earthquake Engineering, 89, 1-37.

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Published date: 2016
Additional Information: Data for eprints record 398117
Related URLs:
Keywords: critical speed, infinite element, finite element method (FEM), moving load, time domain, half-space, layered ground, viscous damping
Organisations: Education Hub, Dynamics Group, Infrastructure Group
Projects:
Railway Track for the 21st Century
Funded by: UNSPECIFIED (EP/H044949/1)
1 June 2010 to 31 May 2015

Identifiers

Local EPrints ID: 398121
URI: http://eprints.soton.ac.uk/id/eprint/398121
DOI: doi:10.5258/SOTON/398121
PURE UUID: b42218e7-a44d-435e-8219-f5eeb0d71d7e
ORCID for David Thompson: ORCID iD orcid.org/0000-0002-7964-5906
ORCID for Antonios Zervos: ORCID iD orcid.org/0000-0002-2662-9320

Catalogue record

Date deposited: 08 Aug 2016 15:10
Last modified: 05 Nov 2023 02:39

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Contributors

Creator: Jou-Yi Shih
Creator: David Thompson ORCID iD
Creator: Antonios Zervos ORCID iD

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