This paper presents a three-dimensional non-linear finite element (FE) approach to analyse the dynamic soil-structure interaction (SSI) phenomena observed at the Lotung Large-Scale Seismic Test (LSST) site. The numerical study is carried out in the time domain by a commercial FE code, taking into account the non-linear behaviour of soil and the multi-directional nature of real seismic events. The soil response is simulated by an isotropic hardening elasto-plastic hysteretic model (HSsmall) implemented in the material model library of the code. This model allows to describe the non-linear cyclic response ranging from small to large strain amplitudes and to account for the variation of the initial stiffness with depth. In the paper, the FE nu...
Predicting the seismic site effects in complex real case histories is a non-trivial scientific and t...
The paper studies the seismic behaviour of an existing homogeneous earth dam using a fully coupled f...
A method of analysis in two-dimensions to predict static and dynamic response of soil structures, in...
This paper presents a non-linear finite element study to back-interpret the free field seismic respo...
none3noThis paper presents a non-linear finite element study to back-interpret the free field seismi...
A 3D non-linear finite element approach is developed to study the free-field seismic ground response...
none3noThis paper describes a numerical approach for the analysis of the seismic ground response and...
A 3D non-linear finite element approach is developed to study the free-field seismic ground response...
The objective of this paper focuses primarily on the numerical approach based on two-dimensional (2-...
Dynamic soil-structure interaction (DSSI) plays a fundamental role in many geotechnical and/or struc...
Earthquakes in regions underlain by soft clay have amply demonstrated the detrimental effects of soi...
For large relatively stiff structures, soil structure interaction (SSI) plays a major role in dictat...
Soil–Structure Interaction (SSI) has progressed rapidly in the second half of 20th century stimulate...
This study investigates the feasibility of using a two-dimensional finite element program QUAD4M for...
A time domain analysis procedure and method for seismic soil-structure interaction analysis are intr...
Predicting the seismic site effects in complex real case histories is a non-trivial scientific and t...
The paper studies the seismic behaviour of an existing homogeneous earth dam using a fully coupled f...
A method of analysis in two-dimensions to predict static and dynamic response of soil structures, in...
This paper presents a non-linear finite element study to back-interpret the free field seismic respo...
none3noThis paper presents a non-linear finite element study to back-interpret the free field seismi...
A 3D non-linear finite element approach is developed to study the free-field seismic ground response...
none3noThis paper describes a numerical approach for the analysis of the seismic ground response and...
A 3D non-linear finite element approach is developed to study the free-field seismic ground response...
The objective of this paper focuses primarily on the numerical approach based on two-dimensional (2-...
Dynamic soil-structure interaction (DSSI) plays a fundamental role in many geotechnical and/or struc...
Earthquakes in regions underlain by soft clay have amply demonstrated the detrimental effects of soi...
For large relatively stiff structures, soil structure interaction (SSI) plays a major role in dictat...
Soil–Structure Interaction (SSI) has progressed rapidly in the second half of 20th century stimulate...
This study investigates the feasibility of using a two-dimensional finite element program QUAD4M for...
A time domain analysis procedure and method for seismic soil-structure interaction analysis are intr...
Predicting the seismic site effects in complex real case histories is a non-trivial scientific and t...
The paper studies the seismic behaviour of an existing homogeneous earth dam using a fully coupled f...
A method of analysis in two-dimensions to predict static and dynamic response of soil structures, in...