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    Volume 39, Issue 4 (July 2016)

    Modified Isotropic Compression Relationship for Cement-Admixed Marine Clay at Low Confining Stress

    (Received 5 July 2015; accepted 23 February 2016)

    Published Online: 2016

    CODEN: GTJODJ

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    Abstract

    This technical note proposes a modified log-linear compression relationship for the pre-yield isotropic compression behavior of cement-admixed marine clay. The difference between this modified relationship and the conventional log-linear relationship is the use of the tensile strength as an added stress to the mean effective stress. This allows the cement-admixed clay to retain a finite specific volume as the mean effective stress approaches zero, which is more consistent with the fact that cement-admixed clays remain intact even under zero effective stress condition. Comparison with data from isotropic compression test shows that the addition of the tensile strength to the mean effective stress leads to a remarkable improvement in linearity, indicating a much-improved fit to the log-linear relationship. The resulting pre-yield compression index implies a non-zero equivalent effective bulk modulus, which is also intuitively more reasonable. At effective stress levels much lower than the tensile strength, the bulk modulus is approximately constant; this is also consistent with the notion of linear elastic behavior at low stress level.


    Author Information:

    Pan, Y.-T.
    Dept. of Civil and Environmental Engineering, National Univ. of Singapore,

    Xiao, H.-W.
    Dept. of Civil and Environmental Engineering, National Univ. of Singapore,

    Lee, F.-H.
    Dept. of Civil and Environmental Engineering, National Univ. of Singapore,

    Phoon, K.-K.
    Dept. of Civil and Environmental Engineering, National Univ. of Singapore,


    Stock #: GTJ20150147

    ISSN:0149-6115

    DOI: 10.1520/GTJ20150147

    Author
    Title Modified Isotropic Compression Relationship for Cement-Admixed Marine Clay at Low Confining Stress
    Symposium ,
    Committee D18