Numerical modeling of seismic wave propagation has been a major topic on ground motion studies using a number of different numerical integration schemes. The consideration of soil nonlinearity holds an important place in order to achieve simulations consistent with real observations for strong seismic shaking. Additionally, in the presence of strong ground motion in saturated soils, pore pressure becomes an important parameter to take into account for related phenomena such as flow liquefaction and cyclic mobility. In this study, first, one component (1C) - seismic wave propagation is modeled in linear and nonlinear media in 1D based on the spectral element numerical method. Viscoelastic and nonlinear soil rheologies are implemented by use ...
The increasing importance of performance-based earthquake engineering analysis points out the necess...
For several years, the problematic about soil-structure interaction (SSI) have been studied in order...
In this research work, numerical simulations using the finite difference FLAC software (Itasca) were...
Numerical modeling of seismic wave propagation has been a major topic on ground motion studies using...
La modélisation numérique de la propagation des ondes sismiques fait partie des études principales s...
Strong ground motions can trigger soil liquefaction that will alter the propagating signal and induc...
The liquefaction of saturated soils during earthquakes is one of the most important problems facing...
The liquefaction of saturated soils during earthquakes is one of the most important problems facing ...
Lors de séismes forts, la propagation des ondes sismiques dans les sols met en jeu des non linéarité...
The subsurface, which contains many natural resources (water, gas, oil, etc.), can also constitute a...
Local geology can strongly affect seismic ground motion at the surface. These so-called site-effects...
International audienceDuring strong quakes, the propagation of seismic waves in soil layers involves...
During strong earthquakes, the seismic wave propagation in soils involves nonlinear behaviors strong...
Liquefaction is one of the most devastating instabilities in saturated granular materials and is the...
The increasing importance of performance-based earthquake engineering analysis points out the necess...
For several years, the problematic about soil-structure interaction (SSI) have been studied in order...
In this research work, numerical simulations using the finite difference FLAC software (Itasca) were...
Numerical modeling of seismic wave propagation has been a major topic on ground motion studies using...
La modélisation numérique de la propagation des ondes sismiques fait partie des études principales s...
Strong ground motions can trigger soil liquefaction that will alter the propagating signal and induc...
The liquefaction of saturated soils during earthquakes is one of the most important problems facing...
The liquefaction of saturated soils during earthquakes is one of the most important problems facing ...
Lors de séismes forts, la propagation des ondes sismiques dans les sols met en jeu des non linéarité...
The subsurface, which contains many natural resources (water, gas, oil, etc.), can also constitute a...
Local geology can strongly affect seismic ground motion at the surface. These so-called site-effects...
International audienceDuring strong quakes, the propagation of seismic waves in soil layers involves...
During strong earthquakes, the seismic wave propagation in soils involves nonlinear behaviors strong...
Liquefaction is one of the most devastating instabilities in saturated granular materials and is the...
The increasing importance of performance-based earthquake engineering analysis points out the necess...
For several years, the problematic about soil-structure interaction (SSI) have been studied in order...
In this research work, numerical simulations using the finite difference FLAC software (Itasca) were...