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    Extension of a basic hypoplastic model for overconsolidated clays

    New search for: Wang, Shun
    New search for: Wu, Wei
    New search for: Zhang, Dichuan
    New search for: Kim, Jong Ryeol

    Abstract This paper presents a new rate-dependent hypoplastic constitutive model for overconsolidated clays. The model is developed based on a basic hypoplastic model proposed recently for sand. New density and stiffness factors are introduced to account for history dependence. The Matsuoka-Nakai failure surface is incorporated for the limit stress criterion. With six constitutive parameters, the model is capable of predicting the hardening/softening, shear dilation/contraction, and asymptotic state for overconsolidated clays. Comparison between numerical predictions and experimental results shows this model can properly describe the main features of both reconstituted and undisturbed clays with different overconsolidation ratios.

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    Extension of a basic hypoplastic model for overconsolidated clays

    New search for: Wang, Shun
    New search for: Wu, Wei
    New search for: Zhang, Dichuan
    New search for: Kim, Jong Ryeol

    Abstract This paper presents a new rate-dependent hypoplastic constitutive model for overconsolidated clays. The model is developed based on a basic hypoplastic model proposed recently for sand. New density and stiffness factors are introduced to account for history dependence. The Matsuoka-Nakai failure surface is incorporated for the limit stress criterion. With six constitutive parameters, the model is capable of predicting the hardening/softening, shear dilation/contraction, and asymptotic state for overconsolidated clays. Comparison between numerical predictions and experimental results shows this model can properly describe the main features of both reconstituted and undisturbed clays with different overconsolidation ratios.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Extension of a basic hypoplastic model for overconsolidated clays

    New search for: Wang, Shun
    New search for: Wu, Wei
    New search for: Zhang, Dichuan
    New search for: Kim, Jong Ryeol

    Abstract This paper presents a new rate-dependent hypoplastic constitutive model for overconsolidated clays. The model is developed based on a basic hypoplastic model proposed recently for sand. New density and stiffness factors are introduced to account for history dependence. The Matsuoka-Nakai failure surface is incorporated for the limit stress criterion. With six constitutive parameters, the model is capable of predicting the hardening/softening, shear dilation/contraction, and asymptotic state for overconsolidated clays. Comparison between numerical predictions and experimental results shows this model can properly describe the main features of both reconstituted and undisturbed clays with different overconsolidation ratios.

    Access

    Check access
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    Title:

    Extension of a basic hypoplastic model for overconsolidated clays

    Contributors:

    Wang, Shun (author) / Wu, Wei (author) / Zhang, Dichuan (author) / Kim, Jong Ryeol (author)

    Published in:

    Computers and Geotechnics ; 123

    Publication date:

    2020-02-09

    ISSN:

    0266-352X

    DOI:

    https://doi.org/10.1016/j.compgeo.2020.103486

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Hypoplastic model , Critical state , Overconsolidation ratio , Response envelope , Asymptotic state boundary surface

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