Influence of particle shape on small-strain damping ratio of dry sands

M. Payan; K. Senetakis; A. Khoshghalb; N. Khalili

doi:10.1680/jgeot.15.T.035

Influence of particle shape on small-strain damping ratio of dry sands

M. Payan, K. Senetakis, A. Khoshghalb, N. Khalili

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

70 Citations (Scopus)

Abstract

This study reports on the significance of particle shape on the small-strain damping ratio of dry sands in shear (D_s,min) through a comprehensive set of torsional resonant column tests. Sands with a variety of grain shapes prepared at variable initial densities are studied. The samples are subjected to torsional resonant column tests under isotropic confining pressures (p′) ranging from 50 to 800 kPa. Small-strain damping ratios are derived based on the free-vibration decay mode of the samples and the results are compared with the half-power bandwidth method. The effects of grain size distribution, particle shape and effective confining stress on D_s,min are thoroughly discussed, and a new model for the prediction of small-strain damping ratio of dry sand is proposed.

Original language	English
Pages (from-to)	610-616
Journal	Geotechnique
Volume	66
Issue number	7
DOIs	https://doi.org/10.1680/jgeot.15.T.035
Publication status	Published - 1 Jul 2016
Externally published	Yes

Research Keywords

Dynamics
Laboratory tests
Sands

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abstract = "This study reports on the significance of particle shape on the small-strain damping ratio of dry sands in shear (Ds,min) through a comprehensive set of torsional resonant column tests. Sands with a variety of grain shapes prepared at variable initial densities are studied. The samples are subjected to torsional resonant column tests under isotropic confining pressures (p′) ranging from 50 to 800 kPa. Small-strain damping ratios are derived based on the free-vibration decay mode of the samples and the results are compared with the half-power bandwidth method. The effects of grain size distribution, particle shape and effective confining stress on Ds,min are thoroughly discussed, and a new model for the prediction of small-strain damping ratio of dry sand is proposed.",

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T1 - Influence of particle shape on small-strain damping ratio of dry sands

AU - Payan, M.

AU - Senetakis, K.

AU - Khoshghalb, A.

AU - Khalili, N.

PY - 2016/7/1

Y1 - 2016/7/1

N2 - This study reports on the significance of particle shape on the small-strain damping ratio of dry sands in shear (Ds,min) through a comprehensive set of torsional resonant column tests. Sands with a variety of grain shapes prepared at variable initial densities are studied. The samples are subjected to torsional resonant column tests under isotropic confining pressures (p′) ranging from 50 to 800 kPa. Small-strain damping ratios are derived based on the free-vibration decay mode of the samples and the results are compared with the half-power bandwidth method. The effects of grain size distribution, particle shape and effective confining stress on Ds,min are thoroughly discussed, and a new model for the prediction of small-strain damping ratio of dry sand is proposed.

AB - This study reports on the significance of particle shape on the small-strain damping ratio of dry sands in shear (Ds,min) through a comprehensive set of torsional resonant column tests. Sands with a variety of grain shapes prepared at variable initial densities are studied. The samples are subjected to torsional resonant column tests under isotropic confining pressures (p′) ranging from 50 to 800 kPa. Small-strain damping ratios are derived based on the free-vibration decay mode of the samples and the results are compared with the half-power bandwidth method. The effects of grain size distribution, particle shape and effective confining stress on Ds,min are thoroughly discussed, and a new model for the prediction of small-strain damping ratio of dry sand is proposed.

KW - Dynamics

KW - Laboratory tests

KW - Sands

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DO - 10.1680/jgeot.15.T.035

M3 - RGC 21 - Publication in refereed journal

SN - 0016-8505

VL - 66

SP - 610

EP - 616

JO - Geotechnique

JF - Geotechnique

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ER -

Influence of particle shape on small-strain damping ratio of dry sands

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