Using the 'step zero' approach to design a centrifuge modelling program
Using the 'step zero' approach to design a centrifuge modelling program
The design of a centrifuge modeling program for a clay bed with an interbedded sand layer is outlined following the 'step zero' approach. A modified sand overlying clay model was used incorporating the top clay as an effective surcharge. The tests aimed to investigate punch through failure, and the subsequent stabilization of bearing capacity. To this behavior within the limited depth of the test box a certain vertical free boundary distance (F BD) is required, which controls the required ratio of soil sample depth to foundation size. In assessing this requirement based on existing calculation methods for punch through, the following four factors were found to be crucial: (i) intercept strength of clay at sand-clay interface; (ii) soil strength gradient of the clay layer; (iii) relative density of sand; and (iv) relative sand layer thickness to foundation diameter. As a result of planning and implementing a 'step zero' approach, the majority of the tests successfully captured the peak resistance and the depth of the punch-through event. The planning approach demonstrated here serves as an example for future centrifuge test design in similar scenarios.
397-403
Ullah, S.N.
f00fe2cf-d9a4-401a-b2f1-278e01997322
Stanier, S.A.
b11049bd-44ee-4db9-9e66-a5ea20a3c70b
White, D.J.
a986033d-d26d-4419-a3f3-20dc54efce93
Hu, Y.
64fd97b0-7ac6-458b-8e89-5ddc6b49c448
2014
Ullah, S.N.
f00fe2cf-d9a4-401a-b2f1-278e01997322
Stanier, S.A.
b11049bd-44ee-4db9-9e66-a5ea20a3c70b
White, D.J.
a986033d-d26d-4419-a3f3-20dc54efce93
Hu, Y.
64fd97b0-7ac6-458b-8e89-5ddc6b49c448
Ullah, S.N., Stanier, S.A., White, D.J. and Hu, Y.
(2014)
Using the 'step zero' approach to design a centrifuge modelling program.
In Physical Modelling in Geotechnics: Proceedings of the 8th International Conference on Physical Modelling in Geotechnics 2014, ICPMG 2014.
vol. 1,
CRC Press.
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
The design of a centrifuge modeling program for a clay bed with an interbedded sand layer is outlined following the 'step zero' approach. A modified sand overlying clay model was used incorporating the top clay as an effective surcharge. The tests aimed to investigate punch through failure, and the subsequent stabilization of bearing capacity. To this behavior within the limited depth of the test box a certain vertical free boundary distance (F BD) is required, which controls the required ratio of soil sample depth to foundation size. In assessing this requirement based on existing calculation methods for punch through, the following four factors were found to be crucial: (i) intercept strength of clay at sand-clay interface; (ii) soil strength gradient of the clay layer; (iii) relative density of sand; and (iv) relative sand layer thickness to foundation diameter. As a result of planning and implementing a 'step zero' approach, the majority of the tests successfully captured the peak resistance and the depth of the punch-through event. The planning approach demonstrated here serves as an example for future centrifuge test design in similar scenarios.
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Published date: 2014
Venue - Dates:
8th International Conference on Physical Modelling in Geotechnics, ICPMG 2014, , Perth, WA, Australia, 2014-01-14 - 2014-01-17
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Local EPrints ID: 419750
URI: http://eprints.soton.ac.uk/id/eprint/419750
PURE UUID: 1e6ec559-ee3c-46ff-a73e-85c3f8b03a6d
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Date deposited: 20 Apr 2018 16:30
Last modified: 05 Mar 2024 02:54
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Author:
S.N. Ullah
Author:
S.A. Stanier
Author:
Y. Hu
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