Interpreting T-bar tests in ultra-soft clay
Interpreting T-bar tests in ultra-soft clay
This technical note describes a simple methodology for reliably measuring the undrained strength of ultra-soft consolidating clay in the geotechnical centrifuge, using the T-bar penetrometer. This methodology relies on the T-bar resistance force owing to soil strength being equal, albeit in the opposite direction, during penetration and extraction when the soil is fully remoulded. The other components of resistance from soil buoyancy, bar self-weight and soil lateral pressure on the T-bar axial strain gauge act in the same direction regardless of the direction of bar movement. The method uses cycles of penetration and extraction to determine the correction required to eliminate these effects. The methodology was validated by comparing the strength inferred from 81 T-bar penetrometer tests with a large strain numerical simulation of consolidation and the resulting gain in soil strength.
Centrifuge facilities, Clays, Consolidation
13-19
Sahdi, Fauzan
4440c2e1-cec9-4cbf-b101-7722b9535ea5
Gaudin, Christophe
fb56af7b-bc67-429c-a507-d26249fba84d
White, David J.
a986033d-d26d-4419-a3f3-20dc54efce93
Boylan, Noel
a74ded07-8f6f-4198-bdc9-76e9693091b1
March 2014
Sahdi, Fauzan
4440c2e1-cec9-4cbf-b101-7722b9535ea5
Gaudin, Christophe
fb56af7b-bc67-429c-a507-d26249fba84d
White, David J.
a986033d-d26d-4419-a3f3-20dc54efce93
Boylan, Noel
a74ded07-8f6f-4198-bdc9-76e9693091b1
Sahdi, Fauzan, Gaudin, Christophe, White, David J. and Boylan, Noel
(2014)
Interpreting T-bar tests in ultra-soft clay.
International Journal of Physical Modelling in Geotechnics, 14 (1), .
(doi:10.1680/ijpmg.13.00012).
Abstract
This technical note describes a simple methodology for reliably measuring the undrained strength of ultra-soft consolidating clay in the geotechnical centrifuge, using the T-bar penetrometer. This methodology relies on the T-bar resistance force owing to soil strength being equal, albeit in the opposite direction, during penetration and extraction when the soil is fully remoulded. The other components of resistance from soil buoyancy, bar self-weight and soil lateral pressure on the T-bar axial strain gauge act in the same direction regardless of the direction of bar movement. The method uses cycles of penetration and extraction to determine the correction required to eliminate these effects. The methodology was validated by comparing the strength inferred from 81 T-bar penetrometer tests with a large strain numerical simulation of consolidation and the resulting gain in soil strength.
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Published date: March 2014
Keywords:
Centrifuge facilities, Clays, Consolidation
Identifiers
Local EPrints ID: 419758
URI: http://eprints.soton.ac.uk/id/eprint/419758
ISSN: 1346-213X
PURE UUID: ee02355a-c865-4b52-a5dd-e3bb7c997d01
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Date deposited: 20 Apr 2018 16:30
Last modified: 16 Mar 2024 04:32
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Author:
Fauzan Sahdi
Author:
Christophe Gaudin
Author:
Noel Boylan
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