Linking carbonate sand fabric and mechanical anisotropy from hollow cylinder tests: Motivation and application
Linking carbonate sand fabric and mechanical anisotropy from hollow cylinder tests: Motivation and application
In addition to density and stress, fabric is also a key state variable strongly affecting soil behavior. While fabric influence on mechanical behavior of soils has been investigated experimentally, the available database is limited in terms of boundary conditions and soil types tested. Offshore carbonate sediments are of special interest for offshore geotechnical analyses due to their prevalence in tropical waters and unique mechanical behavior that stems from their mostly biogenic origin. A key gap in the availability of experimental data on soil fabric relates to the anisotropy of offshore carbonate sediments. In practice, anisotropy studies (whether rigorously correlated to fabric or not) are typically carried out experimentally for simple boundary conditions such as idealized plane strain and axisymmetric states. In real geotechnical applications, stress paths subjected to soil elements in the field are far more complex, often involving the combined variations of both the orientation and magnitude of all three principal stresses. This paper presents a new multiscale approach to assess soil fabric at the micro-scale level and relate it to the macromechanical response observed for generalized loading conditions. A new sampling method is illustrated that enables preservation and evaluation of the fabric of offshore sediments specimens following generalized stress disturbances imparted by a hollow cylinder apparatus. The link between fabric evolution and the observed stress-strain behavior of sand is discussed along with preliminary results. The approach is part of a broad framework that will be used to systematically study the evolution of soil fabric and anisotropy and their relationship to multi-directional loading scenarios.
317-326
American Society of Civil Engineers
Lim, Ming Fook
51d0e24a-9962-44ba-a997-ace43970e5f2
Carraro, J. Antonio H.
7c918a59-9275-473b-b1c4-44e328b8a2db
Gourvenec, Susan
6ff91ad8-1a91-42fe-a3f4-1b5d6f5ce0b8
2017
Lim, Ming Fook
51d0e24a-9962-44ba-a997-ace43970e5f2
Carraro, J. Antonio H.
7c918a59-9275-473b-b1c4-44e328b8a2db
Gourvenec, Susan
6ff91ad8-1a91-42fe-a3f4-1b5d6f5ce0b8
Lim, Ming Fook, Carraro, J. Antonio H. and Gourvenec, Susan
(2017)
Linking carbonate sand fabric and mechanical anisotropy from hollow cylinder tests: Motivation and application.
In,
Brandon, Thomas L. and Valentine, Richard J.
(eds.)
Geotechnical Frontiers 2017: Geotechnical Materials, Modeling, and Testing.
American Society of Civil Engineers, .
(doi:10.1061/9780784480472.034).
Record type:
Book Section
Abstract
In addition to density and stress, fabric is also a key state variable strongly affecting soil behavior. While fabric influence on mechanical behavior of soils has been investigated experimentally, the available database is limited in terms of boundary conditions and soil types tested. Offshore carbonate sediments are of special interest for offshore geotechnical analyses due to their prevalence in tropical waters and unique mechanical behavior that stems from their mostly biogenic origin. A key gap in the availability of experimental data on soil fabric relates to the anisotropy of offshore carbonate sediments. In practice, anisotropy studies (whether rigorously correlated to fabric or not) are typically carried out experimentally for simple boundary conditions such as idealized plane strain and axisymmetric states. In real geotechnical applications, stress paths subjected to soil elements in the field are far more complex, often involving the combined variations of both the orientation and magnitude of all three principal stresses. This paper presents a new multiscale approach to assess soil fabric at the micro-scale level and relate it to the macromechanical response observed for generalized loading conditions. A new sampling method is illustrated that enables preservation and evaluation of the fabric of offshore sediments specimens following generalized stress disturbances imparted by a hollow cylinder apparatus. The link between fabric evolution and the observed stress-strain behavior of sand is discussed along with preliminary results. The approach is part of a broad framework that will be used to systematically study the evolution of soil fabric and anisotropy and their relationship to multi-directional loading scenarios.
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e-pub ahead of print date: 30 March 2017
Published date: 2017
Identifiers
Local EPrints ID: 414825
URI: http://eprints.soton.ac.uk/id/eprint/414825
PURE UUID: 6070c1fa-8f23-4469-afcf-6665e833ce72
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Date deposited: 11 Oct 2017 16:31
Last modified: 16 Mar 2024 04:31
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Contributors
Author:
Ming Fook Lim
Author:
J. Antonio H. Carraro
Editor:
Thomas L. Brandon
Editor:
Richard J. Valentine
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