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Small-strain shear modulus and liquefaction resistance of calcareous sand with non-plastic fines

Jian Hu, Yang Xiao, Jinquan Shi, Armin W. Stuedlein, T. Matthew Evans

2024Géotechnique21 citationsDOI

Abstract

Incorporation of non-plastic fines can dramatically affect the liquefaction resistance and stiffness of sands. In this study, the aim is to evaluate the influence of non-plastic fines on the liquefaction resistance and small-strain shear modulus of calcareous sand under cyclic loading. Forty-seven sets of undrained cyclic triaxial tests and companion bender element tests are conducted on reconstituted specimens. The cyclic behaviour of clean sand and silty sand with varying fines content is examined with respect to the global void ratio, relative density and granular skeleton void ratio. The findings demonstrate that the microscopic contacts between coarse and fine grains have a significant impact on the macroscopic behaviour of sand–fines mixtures. The experimental findings are evaluated using the equivalent granular skeleton void ratio, which has been recognised as a suitable parameter to describe the overall effect of fines. The findings on calcareous sand with fines are supplemented and compared with published data in accordance with the semiempirical simplified approach for liquefaction triggering based on shear wave velocity.

Topics & Concepts

Void ratioLiquefactionGeotechnical engineeringCalcareousShear modulusShear (geology)Materials scienceStiffnessVoid (composites)Triaxial shear testGranular materialCompactionPlasticityRelative densityGeologyComposite materialPaleontologySinteringGeotechnical Engineering and Soil MechanicsGeotechnical Engineering and Underground StructuresGeotechnical Engineering and Soil Stabilization
Small-strain shear modulus and liquefaction resistance of calcareous sand with non-plastic fines | Litcius