Soil–geosynthetic interaction under triaxial conditions: shear strength increase and influence of the specimen dimensions
Soil–geosynthetic interaction under triaxial conditions: shear strength increase and influence of the specimen dimensions
Geosynthetics are extensible reinforcements used to enhance the engineering performance of a soil. The transfer of stresses from the soil to the reinforcement is achieved through soil–geosynthetic interaction. The proposals from the literature to assess the shear strength of the reinforced soil under triaxial conditions use three different approaches. These involve analysing the reinforced soil: (i) as a homogeneous composite material (Approach A), (ii) as two different materials (Approach B), or (iii) as soil having the same fundamental shear strength, with the effect of the reinforcement represented as an additional lateral or confining stress (Approach C). In this paper, triaxial tests data of a soil reinforced with a geosynthetic, and specimens with different dimensions (diameters 70 and 150 mm) were used to assess changes in shear strength and to carry out a statistical analysis. The increases in shear strength of the reinforced soil and of the soil–geosynthetic interface were analysed using equations from the literature. The difference between the triaxial results obtained from specimens of different sizes was assessed using an Analysis of Covariance (ANCOVA). When the joint term of the regression model was not statistically significant, the characterisation from different specimen sizes was used to generate soil failure envelopes. Thus, a new methodology to obtain a failure envelope with different specimen sizes is presented.
Dimension of specimens, Geosynthetics, Granular soil, Statistical analysis, Triaxial tests
Anjos, Rafael
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Miranda Carlos, David
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Gouveia, Sonia
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Pinho-Lopes, Margarida
9781fdf4-cc87-495f-9aad-4f565fcc68d1
Powrie, William
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14 November 2023
Anjos, Rafael
5aeb9bdb-85c5-4ea8-920a-ab91ce0e87c9
Miranda Carlos, David
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Gouveia, Sonia
0bab6972-3058-4cf9-b98b-d8fb21b427d1
Pinho-Lopes, Margarida
9781fdf4-cc87-495f-9aad-4f565fcc68d1
Powrie, William
600c3f02-00f8-4486-ae4b-b4fc8ec77c3c
Anjos, Rafael, Miranda Carlos, David, Gouveia, Sonia, Pinho-Lopes, Margarida and Powrie, William
(2023)
Soil–geosynthetic interaction under triaxial conditions: shear strength increase and influence of the specimen dimensions.
International Journal of Geosynthetics and Ground Engineering, 9 (6), [83].
(doi:10.1007/s40891-023-00502-6).
Abstract
Geosynthetics are extensible reinforcements used to enhance the engineering performance of a soil. The transfer of stresses from the soil to the reinforcement is achieved through soil–geosynthetic interaction. The proposals from the literature to assess the shear strength of the reinforced soil under triaxial conditions use three different approaches. These involve analysing the reinforced soil: (i) as a homogeneous composite material (Approach A), (ii) as two different materials (Approach B), or (iii) as soil having the same fundamental shear strength, with the effect of the reinforcement represented as an additional lateral or confining stress (Approach C). In this paper, triaxial tests data of a soil reinforced with a geosynthetic, and specimens with different dimensions (diameters 70 and 150 mm) were used to assess changes in shear strength and to carry out a statistical analysis. The increases in shear strength of the reinforced soil and of the soil–geosynthetic interface were analysed using equations from the literature. The difference between the triaxial results obtained from specimens of different sizes was assessed using an Analysis of Covariance (ANCOVA). When the joint term of the regression model was not statistically significant, the characterisation from different specimen sizes was used to generate soil failure envelopes. Thus, a new methodology to obtain a failure envelope with different specimen sizes is presented.
Text
s40891-023-00502-6
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More information
Accepted/In Press date: 30 October 2023
Published date: 14 November 2023
Additional Information:
Funding Information:
Rafael Anjos was supported by the doctoral Grant PRT/BD/154385/2022 financed by Portuguese Foundation for Science and Technology (FCT), and with funds from European Social Fund (ESF) and Por_Centro Program, under MIT Portugal Program. The financial support of FCT (“Fundação para a Ciência e Tecnologia”—Portugal) is gratefully acknowledged through the project UIDB/04450/2020 (RISCO) and UIBD/00127/2020 (IEETA, www.ieeta.pt ). This work was financially supported by the project TRANSFORM funded by the Portuguese Resilience Plan (PRR) through European Union—NextGenerationEU.
Publisher Copyright:
© 2023, The Author(s).
Keywords:
Dimension of specimens, Geosynthetics, Granular soil, Statistical analysis, Triaxial tests
Identifiers
Local EPrints ID: 485924
URI: http://eprints.soton.ac.uk/id/eprint/485924
ISSN: 2199-9260
PURE UUID: bf3e80c2-0e40-4ef6-93fe-2427aeadba31
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Date deposited: 04 Jan 2024 04:38
Last modified: 18 Mar 2024 02:40
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Contributors
Author:
Rafael Anjos
Author:
David Miranda Carlos
Author:
Sonia Gouveia
Author:
Margarida Pinho-Lopes
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