Centrifuge and numerical modelling of ground-borne vibration from surface sources
Centrifuge and numerical modelling of ground-borne vibration from surface sources
For the study of ground-borne vibration from surface sources, it is commonly assumed that soil properties remain constant with depth. However, various studies in the field of geotechnical engineering have shown that soil properties (stiffness and damping) change with depth due to the effect of increasing confining stress. Ground-borne vibration is hence unrealistically simulated if constant soil properties are assumed throughout a half space or a soil layer. This paper presents a study of the effect of the variation of soil properties with depth, referred to as soil non-homogeneity, on ground-borne vibrations induced by surface sources. The study involved physical modelling using a geotechnical centrifuge and numerical modelling using EDT and FLAC to gain further understanding of experimental results. In the centrifuge model, a dynamic excitation was applied to a rigid foundation resting on the surface of sand within a cylindrical container. Dynamic soil response was measured using accelerometers on the surface and within the soil. Comparison of the experimental and numerical results demonstrated that it is important to account for the variation of soil properties with depth when studying ground-borne vibration from surface sources.
centrifuge, edt, flac, ground-borne vibration, soil non-homogeneity, surface foundation
78-89
Yang, W.
8d99a175-3cc8-44bc-99c2-cf431ae9a4ea
Hussein, M.F.M.
3535c131-1710-4edc-a4a1-8fe67dee3f67
Marshall, A.
01d83f0c-55d3-439d-93ed-ee07950db3c4
Cox, C.
c8b3deaf-24bf-42b0-a11e-4906c00f6bc8
2013
Yang, W.
8d99a175-3cc8-44bc-99c2-cf431ae9a4ea
Hussein, M.F.M.
3535c131-1710-4edc-a4a1-8fe67dee3f67
Marshall, A.
01d83f0c-55d3-439d-93ed-ee07950db3c4
Cox, C.
c8b3deaf-24bf-42b0-a11e-4906c00f6bc8
Yang, W., Hussein, M.F.M., Marshall, A. and Cox, C.
(2013)
Centrifuge and numerical modelling of ground-borne vibration from surface sources.
Soil Dynamics and Earthquake Engineering, 44, .
(doi:10.1016/j.soildyn.2012.09.003).
Abstract
For the study of ground-borne vibration from surface sources, it is commonly assumed that soil properties remain constant with depth. However, various studies in the field of geotechnical engineering have shown that soil properties (stiffness and damping) change with depth due to the effect of increasing confining stress. Ground-borne vibration is hence unrealistically simulated if constant soil properties are assumed throughout a half space or a soil layer. This paper presents a study of the effect of the variation of soil properties with depth, referred to as soil non-homogeneity, on ground-borne vibrations induced by surface sources. The study involved physical modelling using a geotechnical centrifuge and numerical modelling using EDT and FLAC to gain further understanding of experimental results. In the centrifuge model, a dynamic excitation was applied to a rigid foundation resting on the surface of sand within a cylindrical container. Dynamic soil response was measured using accelerometers on the surface and within the soil. Comparison of the experimental and numerical results demonstrated that it is important to account for the variation of soil properties with depth when studying ground-borne vibration from surface sources.
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Published date: 2013
Keywords:
centrifuge, edt, flac, ground-borne vibration, soil non-homogeneity, surface foundation
Organisations:
Dynamics Group
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Local EPrints ID: 354625
URI: http://eprints.soton.ac.uk/id/eprint/354625
ISSN: 0267-7261
PURE UUID: 54852e1b-0c7f-48b1-8c76-0b16b674721b
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Date deposited: 16 Jul 2013 15:30
Last modified: 14 Mar 2024 14:22
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Author:
W. Yang
Author:
M.F.M. Hussein
Author:
A. Marshall
Author:
C. Cox
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