International audienceLocal wave amplification due to strong seismic motions in surficial multilayered soil is influenced by several parameters such as the wavefield polarization and the dynamic properties and impedance contrast between soil layers. The present research aims at investigating seismic motion amplification in the 2011 Tohoku earthquake through a one-directional three-component (1D-3C) wave propagation model. A 3D nonlinear constitutive relation for dry soils under cyclic loading is implemented in a quadratic line finite element model. The soil rheology is modeled by mean of a multi-surface cyclic plasticity model of the Masing-Prandtl-Ishlinskii-Iwan (MPII) type. Its major advantage is that the rheology is characterized by few...
Strong ground motions generally lead to both a stiffness reduction and a larger energy dissipation i...
During strong earthquakes, the seismic wave propagation in soils involves nonlinear behaviors strong...
none3noThis paper describes a numerical approach for the analysis of the seismic ground response and...
International audienceLocal wave amplification due to strong seismic motions in surficial multilayer...
International audienceThe seismic response of surficial multilayered soils to strong earthquakes is ...
International audienceThe influence of pore water pressure has to be taken into account when the pro...
The influence of pore water pressure has to be taken into account when the propagation of seismic wa...
Strong seismic motions in soils generally lead to both a stiffness reduction and an increase of the ...
International audienceStrong seismic motions in soils generally lead to both a stiffness reduction a...
International audienceSeismic waves due to strong earthquakes propagating in surficial soil layers m...
Predicting the ground response to the propagation of seismic waves is one of the most important aspe...
This research is focused on the case study of San Carlo village (Emilia- Romagna, Italy), struck by ...
International audienceWe propose a one-directional three-component (1D-3C) approach to model the uni...
International audienceIn this paper, a model of one-directional propagation of three-component seism...
Numerical modelling of seismic wave propagation, considering soil nonlinearity, has becomea major to...
Strong ground motions generally lead to both a stiffness reduction and a larger energy dissipation i...
During strong earthquakes, the seismic wave propagation in soils involves nonlinear behaviors strong...
none3noThis paper describes a numerical approach for the analysis of the seismic ground response and...
International audienceLocal wave amplification due to strong seismic motions in surficial multilayer...
International audienceThe seismic response of surficial multilayered soils to strong earthquakes is ...
International audienceThe influence of pore water pressure has to be taken into account when the pro...
The influence of pore water pressure has to be taken into account when the propagation of seismic wa...
Strong seismic motions in soils generally lead to both a stiffness reduction and an increase of the ...
International audienceStrong seismic motions in soils generally lead to both a stiffness reduction a...
International audienceSeismic waves due to strong earthquakes propagating in surficial soil layers m...
Predicting the ground response to the propagation of seismic waves is one of the most important aspe...
This research is focused on the case study of San Carlo village (Emilia- Romagna, Italy), struck by ...
International audienceWe propose a one-directional three-component (1D-3C) approach to model the uni...
International audienceIn this paper, a model of one-directional propagation of three-component seism...
Numerical modelling of seismic wave propagation, considering soil nonlinearity, has becomea major to...
Strong ground motions generally lead to both a stiffness reduction and a larger energy dissipation i...
During strong earthquakes, the seismic wave propagation in soils involves nonlinear behaviors strong...
none3noThis paper describes a numerical approach for the analysis of the seismic ground response and...