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WU Qi, YANG Zheng-tao, LIU Kang, CHEN Guo-xing. Experimental study on influences of fines content on dynamic deformation characteristics of saturated coral sand[J]. Chinese Journal of Geotechnical Engineering, 2022, 44(8): 1386-1396. DOI: 10.11779/CJGE202208003
Citation: WU Qi, YANG Zheng-tao, LIU Kang, CHEN Guo-xing. Experimental study on influences of fines content on dynamic deformation characteristics of saturated coral sand[J]. Chinese Journal of Geotechnical Engineering, 2022, 44(8): 1386-1396. DOI: 10.11779/CJGE202208003

Experimental study on influences of fines content on dynamic deformation characteristics of saturated coral sand

  • In order to meet the urgent need for the cyclic characteristic parameters of coral sand in the proper engineering analysis of both military and civilian function facilities located in Nansha reefs and offshore marine areas, it is an important and emergent scientific task to study the dynamic deformation characteristics of the coral sand of the Nansha Islands in China. A series of resonance column tests are carried out on the saturated coral sand specimens from Nansha Islands. The aim of the tests is to investigate the effects of relative density Dr, initial effective confining pressure \sigma '_\textm and fines content FC on the dynamic deformation characteristics of the specimens. The test results show that the stress exponent n, reflecting the rates of Gmax increment due to the enhancement of \sigma '_\textm , presents a soil-specific constant. Synthesising the test data here and from three saturated sandy soils in the literatures, it is found that the stress-corrected maximum shear modulus Gmax/( \sigma '_\textm / p_\texta )n decreases monotonically with the increase of the equivalent skeleton void ratio e, and a power relationship between Gmax/( \sigma '_\textm / p_\texta )n and e_\textsk^\text* is then obtained. At the same strain level, the dynamic shear modulus G of the coral sand decreases with the increase of FC, and increases with the increase of Dr and \sigma '_\textm . FC, Dr and \sigma '_\textm have few effects on the damping ratio when the shear strain \gamma < 10-4, but have a significant effect on the damping ratio when \gamma > 10-4. Dr and \sigma '_\textm have no obvious influences on the dynamic shear modulus ratio G/Gmax. When 0% ≤ FC ≤ 30%, the G/Gmax- \gamma attenuation curve continues to decline with the increase of FC. The recommended values of fitting parametes A and B of the Davidenkov model for the coral sand are given, and it is found that the reference shear strain \gamma _0 decreases linearly with FC.
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