Inverse analysis of shallow foundation settlements on collapsible loess: Understanding the impact of varied soil mechanical properties during Wetting
Articolo
Data di Pubblicazione:
2024
Abstract:
Loess soil presents a collapsible behavior and suffers significant settlements due to wetting that can seriously
affect the structures supported on it. The increase in water content produces a permanent change in loess soil
microstructure and sudden volume reductions. In this work, a hydro-mechanical (H-M) model is presented to
analyze the soil response and the behavior of strip foundations on loess soil using a 2D finite element model.
Numerical models were calibrated, on one hand, from experimental data of double oedometer tests and soil
water retention curve; and on the second hand, by retrofit analysis from the measurement of settlements in fullscale
foundation prototypes over collapsible loess during controlled water pipe leakage. The settlements were
studied by performing statistics, sensibility, and inverse analyses. Final settlements after 2 years of infiltration of
water were computed using Monte Carlo simulations. The results show that the compression index at saturation
is the most significant parameter controlling the behavior of collapsible loess. Optimum sets of parameters were
achieved with inverse analysis, demonstrating the accuracy of the H-M model to predict collapse-induced settlements
of shallow foundations.
affect the structures supported on it. The increase in water content produces a permanent change in loess soil
microstructure and sudden volume reductions. In this work, a hydro-mechanical (H-M) model is presented to
analyze the soil response and the behavior of strip foundations on loess soil using a 2D finite element model.
Numerical models were calibrated, on one hand, from experimental data of double oedometer tests and soil
water retention curve; and on the second hand, by retrofit analysis from the measurement of settlements in fullscale
foundation prototypes over collapsible loess during controlled water pipe leakage. The settlements were
studied by performing statistics, sensibility, and inverse analyses. Final settlements after 2 years of infiltration of
water were computed using Monte Carlo simulations. The results show that the compression index at saturation
is the most significant parameter controlling the behavior of collapsible loess. Optimum sets of parameters were
achieved with inverse analysis, demonstrating the accuracy of the H-M model to predict collapse-induced settlements
of shallow foundations.
Tipologia CRIS:
1.1 Articolo in rivista
Keywords:
Loess
Numerical modeling
In-situ settlements
Sensitivity analysis
Collapse
Elenco autori:
Francisca, F. M.; Giomi, I.; Rocca, R. J.
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