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Small-strain shear modulus of calcareous sand under anisotropic consolidation
Shi, J.; Xiao, Y.; Hu, J.; Wu, H.; Liu, H.; Haegeman, W. (2022). Small-strain shear modulus of calcareous sand under anisotropic consolidation. Can. Geotech. J. = Rev. Can. Géotech. 59(6): 878-888. https://dx.doi.org/10.1139/cgj-2021-0329
In: Canadian Geotechnical Journal = Revue Canadienne de Géotechnique. National Research Council of Canada: Ottawa. ISSN 0008-3674; e-ISSN 1208-6010, more
Peer reviewed article  

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Author keywords
    small-strain shear modulus; anisotropic consolidation; bender element; stiffness anisotropy; sample preparation method

Authors  Top 
  • Shi, J., more
  • Xiao, Y.
  • Hu, J.
  • Wu, H.
  • Liu, H.
  • Haegeman, W., more

Abstract
    In this study, the small-strain shear modulus of a calcareous sand was investigated by conducting bender element tests on both horizontal and vertical planes. The effects of sample preparation method, stress path and stress history on the developing of void ratio, the parameters in the modified Hardin Equation, and the stiffness anisotropy were examined. The test results show that the moist tamping samples have the least void ratio variation among the five samples. The void ratio recovery in effective horizontal stress sigma'(h) =100 kPa tests is higher than that in the effective vertical stress sigma'(v) = 100 kPa tests. The samples prepared in the dry state have lower stiffness than those prepared in the moisture state, which is not influenced by the anisotropic stress state. The stiffness anisotropy induced by the sample preparation method is significant under anisotropic consolidation. In sigma'(h) = 100 kPa tests, the stiffness ratios at the end of the unloading stage are lower than the initial values at the loading stage, which is not found in the sigma'(v) = 100 kPa tests, meaning that the stress history and stress path could affect the stiffness anisotropy and eliminate the impact of fabric anisotropy.

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