Soil-geosynthetic interaction in pullout and inclined-plane shear for two geosynthetics exhumed after installation damage
Soil-geosynthetic interaction in pullout and inclined-plane shear for two geosynthetics exhumed after installation damage
This paper contributes to better understanding how installation damage of geosynthetics can affect the soil-geosynthetic interaction on pullout and inclined-plane shear. The effects of installation damage induced in field trials of a woven geotextile and a woven geogrid were studied. The results indicated that after installation the accumulation of a layer of fine particles over the geosynthetics can reduce the skin friction available, particularly for sheet materials. Installation damage can induce premature tensile failures in pullout tests, along the unconfined section of geosynthetics, causing a significant reduction of the corresponding coefficient of interaction. The contribution of the bearing members to the coefficient of interaction in pullout was estimated using equations from the literature. Such estimates were too optimistic. The installation damage induced had little influence on the soil-geosynthetic coefficient of interaction in inclined plane shear. The different relative movements of soil and geosynthetic in pullout and inclined-plane shear, as well as the deformation of the reinforcements during pullout, enabled different mobilisation of the interface strength. For the comparable conditions tested, the coefficient of interaction from inclined plane shear tests was larger than that measured from pullout tests. The reduction factor for installation damage obtained from tensile tests overestimated the effects of the installation conditions on the soil-geosynthetic interface from both pullout and inclined plane shear tests.
Geosynthetics, installation damage, coefficient of interaction, pullout, inclined plane shear
331-347
Pinho-Lopes, M.
b7e5f7d6-90d8-48cc-b991-0495445fcea4
Paula, A.M.
97f86e03-7a69-436f-b276-63a08c101add
Lopes, M.L.
dca0c06e-aaa8-47df-923f-5fa9973552ba
21 September 2016
Pinho-Lopes, M.
b7e5f7d6-90d8-48cc-b991-0495445fcea4
Paula, A.M.
97f86e03-7a69-436f-b276-63a08c101add
Lopes, M.L.
dca0c06e-aaa8-47df-923f-5fa9973552ba
Pinho-Lopes, M., Paula, A.M. and Lopes, M.L.
(2016)
Soil-geosynthetic interaction in pullout and inclined-plane shear for two geosynthetics exhumed after installation damage.
Geosynthetics International, 23 (5), .
(doi:10.1680/jgein.16.00001).
Abstract
This paper contributes to better understanding how installation damage of geosynthetics can affect the soil-geosynthetic interaction on pullout and inclined-plane shear. The effects of installation damage induced in field trials of a woven geotextile and a woven geogrid were studied. The results indicated that after installation the accumulation of a layer of fine particles over the geosynthetics can reduce the skin friction available, particularly for sheet materials. Installation damage can induce premature tensile failures in pullout tests, along the unconfined section of geosynthetics, causing a significant reduction of the corresponding coefficient of interaction. The contribution of the bearing members to the coefficient of interaction in pullout was estimated using equations from the literature. Such estimates were too optimistic. The installation damage induced had little influence on the soil-geosynthetic coefficient of interaction in inclined plane shear. The different relative movements of soil and geosynthetic in pullout and inclined-plane shear, as well as the deformation of the reinforcements during pullout, enabled different mobilisation of the interface strength. For the comparable conditions tested, the coefficient of interaction from inclined plane shear tests was larger than that measured from pullout tests. The reduction factor for installation damage obtained from tensile tests overestimated the effects of the installation conditions on the soil-geosynthetic interface from both pullout and inclined plane shear tests.
Text
__soton.ac.uk_ude_PersonalFiles_Users_mpl1c12_mydocuments_02_publicacoes_2015_ID_Pullout_&_IPS_2015_GI_ID_Pullout_&_IPS_accepted.pdf
- Author's Original
More information
Accepted/In Press date: 27 December 2015
e-pub ahead of print date: 17 March 2016
Published date: 21 September 2016
Additional Information:
Available via http://www.icevirtuallibrary.com/toc/jgein/current
Keywords:
Geosynthetics, installation damage, coefficient of interaction, pullout, inclined plane shear
Organisations:
Infrastructure Group
Identifiers
Local EPrints ID: 385425
URI: http://eprints.soton.ac.uk/id/eprint/385425
ISSN: 1072-6349
PURE UUID: 95cc2213-32b0-488d-bc0d-fcc6ea8b82f6
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Date deposited: 19 Jan 2016 16:48
Last modified: 15 Mar 2024 05:23
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Author:
A.M. Paula
Author:
M.L. Lopes
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