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    YAN Jia-jia, ZHOU Jian, GUAN Lin-bo, GONG Xiao-nan. Experimental study on non-coaxiality and influence factors of intact Hangzhou soft clay[J]. Chinese Journal of Geotechnical Engineering, 2013, 35(1): 96-102.
    Citation: YAN Jia-jia, ZHOU Jian, GUAN Lin-bo, GONG Xiao-nan. Experimental study on non-coaxiality and influence factors of intact Hangzhou soft clay[J]. Chinese Journal of Geotechnical Engineering, 2013, 35(1): 96-102.
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    Experimental study on non-coaxiality and influence factors of intact Hangzhou soft clay

    • 1. Research Center of Coastal and Urban Geotechnical Engineering, Hanzhou University, Hangzhou 310058, China; 2. Zhejiang College of Tongji University, Jiaxing 314051, China

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    • Received Date: March 19, 2012
    • Published Date: January 31, 2013
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    • The Saint Venant’s postulate is inapplicable to soil materials, namely there is a deviation between the major principal stress and strain increment directions. A series of tests with principal stress rotation are carried out on intact Hangzhou soft clay with ZJU-HCA. The stress paths under continuous rotation, cyclic rotation of principal stress and increasing principal stress direction angle and deviatoric stress are designed to study the non-coaxiality behaviors and influence factors. The non-coaxiality between the principal stress and strain increment directions is remarkable and quite different from that of sands. The degree of non-coaxiality in the tests with larger deviatoric stress or principal stress rotation with increasing deviatoric stress is smaller. In the cyclic principal stress rotation tests, the non-coaxiality is more complex when b≠0. The non-coaxiality is more significant when the samples experience reverse rotation of the principal stress. Additionally, the degree of non-coaxiality decreases as the development of shear strain and sometimes even negative values is investigated in non-coaxial angle.
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      • References (11)
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