TY - GEN
T1 - Effective soil density for small strain shear wave propagation
AU - Qiu, Tong
AU - Fox, Patrick J.
PY - 2008
Y1 - 2008
N2 - This paper presents an investigation of the value of soil density that controls the velocity of small strain shear waves in saturated soil. An "effective soil density" is defined that is related to the fraction of pore water that moves with the solid skeleton during shear wave propagation. Biot theory indicates that the ratio of effective soil density to saturated soil density is always ≤ 1 and is a function of the specific gravity of solids, porosity, hydraulic conductivity, and shear wave frequency. Except for extreme cases, the effective density ratio will range from 0.75 to 1.0. For many geotechnical applications, effective soil density will be equal to saturated soil density for low hydraulic conductivity materials (clays and silts). On the other hand, consideration of effective soil density may be important for high hydraulic conductivity materials (clean sands and gravels) in some cases. The findings are relevant to applications involving the propagation of small strain shear waves through saturated soil, and in particular for laboratory and field tests in which shear modulus is back-calculated from measured shear wave velocity.
AB - This paper presents an investigation of the value of soil density that controls the velocity of small strain shear waves in saturated soil. An "effective soil density" is defined that is related to the fraction of pore water that moves with the solid skeleton during shear wave propagation. Biot theory indicates that the ratio of effective soil density to saturated soil density is always ≤ 1 and is a function of the specific gravity of solids, porosity, hydraulic conductivity, and shear wave frequency. Except for extreme cases, the effective density ratio will range from 0.75 to 1.0. For many geotechnical applications, effective soil density will be equal to saturated soil density for low hydraulic conductivity materials (clays and silts). On the other hand, consideration of effective soil density may be important for high hydraulic conductivity materials (clean sands and gravels) in some cases. The findings are relevant to applications involving the propagation of small strain shear waves through saturated soil, and in particular for laboratory and field tests in which shear modulus is back-calculated from measured shear wave velocity.
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U2 - 10.1061/40975(318)48
DO - 10.1061/40975(318)48
M3 - Conference contribution
AN - SCOPUS:84868947232
SN - 9780784409756
T3 - Geotechnical Special Publication
BT - Proceedings of the Geotechnical Earthquake Engineering and Soil Dynamics IV Congress 2008 - Geotechnical Earthquake Engineering and Soil Dynamics, GSP 181
T2 - Geotechnical Earthquake Engineering and Soil Dynamics IV Congress 2008 - Geotechnical Earthquake Engineering and Soil Dynamics
Y2 - 18 May 2008 through 22 May 2008
ER -