This paper concerns the numerical analysis aimed at reproducing the centrifuge test conducted on a clayey silty sand river embankment, compacted in unsaturated conditions and subjected to a simulated flood event. To investigate the observed behavior during different stages of the test, characterized by incremental acceleration fields, a finite element simulation of the small-scale centrifuge model was developed. An accurate calibration of the hydromechanical soil parameters based on a preceding laboratory campaign was used to simulate the centrifuge test. Then, a comparison between the results of numerical simulation and experimental data, collected during centrifuge test, allowed to validate the fully-coupled numerical analysis at the small-scale model and to interpret the hydro-mechanical behavior of the embankment.
On the hydro-mechanical behavior of an unsaturated river embankment: centrifuge testing and numerical analysis / Dodaro, E.; Ventini, R.; Pirone, M.; Gragnano, C. G.; Giretti, D.; Gottardi, G.; Mancuso, C.; Fioravante, V.. - (2022). (Intervento presentato al convegno 10th International Conference on Physical Modelling in Geotechnics 2022 tenutosi a KAIST, Daejeon, Korea).
On the hydro-mechanical behavior of an unsaturated river embankment: centrifuge testing and numerical analysis
Ventini R.Secondo
;Pirone M.;Gottardi G.;Mancuso C.;
2022
Abstract
This paper concerns the numerical analysis aimed at reproducing the centrifuge test conducted on a clayey silty sand river embankment, compacted in unsaturated conditions and subjected to a simulated flood event. To investigate the observed behavior during different stages of the test, characterized by incremental acceleration fields, a finite element simulation of the small-scale centrifuge model was developed. An accurate calibration of the hydromechanical soil parameters based on a preceding laboratory campaign was used to simulate the centrifuge test. Then, a comparison between the results of numerical simulation and experimental data, collected during centrifuge test, allowed to validate the fully-coupled numerical analysis at the small-scale model and to interpret the hydro-mechanical behavior of the embankment.| File | Dimensione | Formato | |
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(2022 - Dodaro et al.) - On the hydro-mechanical behavior of an unsaturated river embankment through centrifuge testing and numerical analysis.pdf
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