2022
DOI: 10.55461/yunw7668
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Hyperbolic Hydro-mechanical Model for Seismic Compression Prediction of Unsaturated Soils in the Funicular Regime

Abstract: A semi-empirical elasto-plastic constitutive model with a hyperbolic stress-strain curve was developed with the goal of predicting the seismic compression of unsaturated sands in the funicular regime of the soil-water retention curve (SWRC) during undrained cyclic shearing. Using a flow rule derived from energy considerations, the evolution in plastic volumetric strain (seismic compression) was predicted from the plastic shear strains of the hysteretic hyperbolic stress-strain curve. The plastic volumetric str… Show more

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Cited by 2 publications
(5 citation statements)
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“…This may indicate that the model used for the transient SWRC scanning paths may need to be refined, or that the assumption of linking the degree of saturation to the shear-induced pore water pressure generation may not be valid for higher degrees of saturation. Another interesting observation was that the initial degree of saturation had a significant effect on the evolution in the pore air pressure with the number of cycles that matched the measured values well [14]. However, after many cycles the pore air pressures approached an asymptote that was nearly the same for all specimens as shown in Fig.…”
Section: Evaluation Of Model Predictionssupporting
confidence: 62%
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“…This may indicate that the model used for the transient SWRC scanning paths may need to be refined, or that the assumption of linking the degree of saturation to the shear-induced pore water pressure generation may not be valid for higher degrees of saturation. Another interesting observation was that the initial degree of saturation had a significant effect on the evolution in the pore air pressure with the number of cycles that matched the measured values well [14]. However, after many cycles the pore air pressures approached an asymptote that was nearly the same for all specimens as shown in Fig.…”
Section: Evaluation Of Model Predictionssupporting
confidence: 62%
“…An asymptotic trend is noted in all the model predictions but not always in the data. The trends in other hydromechanical variables after 15 and 200 cycles of shearing are reported by Kinikles and McCartney [14]. While the model captured the coupled evolution in hydromechanical variables (pore air pressure, pore water pressure, matric suction, degree of saturation, volumetric strain, effective stress, shear modulus) have a reasonable match after the first 15 cycles of shearing, the predictions do not match the trends in the data after 200 cycles of shearing.…”
Section: Evaluation Of Model Predictionsmentioning
confidence: 81%
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