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    Shear Strength of Granular Soil Under Saturated and Unsaturated Conditions

    New search for: Idinger, Gregor
    New search for: Wu, Wei

    Abstract The shear strength of soils depends on various factors such as the stress level, soil density, and degree of saturation. Capillary forces in unsaturated soils feature an increased strength against shear loading, and influence stress, deformation, and flow phenomena. Thus it is crucial to incorporate the bonding effect of unsaturated soils to numerical models addressing the behaviour of unsaturated soils. The presented experimental campaign of triaxial compression tests aims to investigate the effect of capillarity on the mechanical behaviour of granular soil. The experimental programme consists of consolidated-drained tests on saturated soils and equivalent constant suction tests on unsaturated soils with matric suction of 10 kPa. The results of the experimental campaign reflect the higher resistance of unsaturated soils against shear loading manifested by an additional apparent cohesion term and by suction-induced hardening.

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    Shear Strength of Granular Soil Under Saturated and Unsaturated Conditions

    New search for: Idinger, Gregor
    New search for: Wu, Wei

    Abstract The shear strength of soils depends on various factors such as the stress level, soil density, and degree of saturation. Capillary forces in unsaturated soils feature an increased strength against shear loading, and influence stress, deformation, and flow phenomena. Thus it is crucial to incorporate the bonding effect of unsaturated soils to numerical models addressing the behaviour of unsaturated soils. The presented experimental campaign of triaxial compression tests aims to investigate the effect of capillarity on the mechanical behaviour of granular soil. The experimental programme consists of consolidated-drained tests on saturated soils and equivalent constant suction tests on unsaturated soils with matric suction of 10 kPa. The results of the experimental campaign reflect the higher resistance of unsaturated soils against shear loading manifested by an additional apparent cohesion term and by suction-induced hardening.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Shear Strength of Granular Soil Under Saturated and Unsaturated Conditions

    New search for: Idinger, Gregor
    New search for: Wu, Wei

    Abstract The shear strength of soils depends on various factors such as the stress level, soil density, and degree of saturation. Capillary forces in unsaturated soils feature an increased strength against shear loading, and influence stress, deformation, and flow phenomena. Thus it is crucial to incorporate the bonding effect of unsaturated soils to numerical models addressing the behaviour of unsaturated soils. The presented experimental campaign of triaxial compression tests aims to investigate the effect of capillarity on the mechanical behaviour of granular soil. The experimental programme consists of consolidated-drained tests on saturated soils and equivalent constant suction tests on unsaturated soils with matric suction of 10 kPa. The results of the experimental campaign reflect the higher resistance of unsaturated soils against shear loading manifested by an additional apparent cohesion term and by suction-induced hardening.

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    Title:

    Shear Strength of Granular Soil Under Saturated and Unsaturated Conditions

    Contributors:

    Idinger, Gregor (author) / Wu, Wei (author)

    Published in:

    Recent Advances in Geotechnical Research ; 79-89

    Springer Series in Geomechanics and Geoengineering

    Publication date:

    2018-06-02

    Size:

    11 pages

    ISBN:

    978-3-319-89671-7 , 978-3-319-89670-0

    ISSN:

    1866-8755 , 1866-8763

    DOI:

    https://doi.org/10.1007/978-3-319-89671-7_7

    Type of media:

    Article/Chapter (Book)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Engineering , Geoengineering, Foundations, Hydraulics , Geotechnical Engineering & Applied Earth Sciences

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