Report No. CCEER-87-1This report presents a two-dimensional method of analysis to evaluate seismic response of surface and embedded footings resting of saturated sand. The method accounts for strength and stiffness loss due to the generation of residual pore water pressure and also pore water pressure dissipation. The predictive capability of the method of analysis has been verified by comparing the recorded response of centrifuged models subjected to simulated earthquakes, to those computed by the method. The comparative study suggests that the method can be used successfully to study the response of footings and soil deposits. This method also has been used to identify important factors that affect the response of footings. The results ...
The importance of predictions of earthquake-induced pore water pressure has been widely recognized f...
The most common procedures for predicting pore pressures generated by earthquake loading in saturate...
Passive stabilization is a novel technique for mitigating the risk of seismic liquefaction in the no...
A method of analysis in two-dimensions to predict static and dynamic response of soil structures, in...
The constitutive relationships proposed by Finn, Lee and Martin (1977) for the effective stress anal...
Analysis of response of level ground subjected to earthquake is one of the most important problems i...
Field observations during past earthquakes have shown that quay walls may experience severe damages ...
Abstract A numerical model based on the finite element framework was developed to predict the seismi...
207 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1981.An analytical procedure is de...
A method for evaluating the soil parameters required for effective stress analyses of the earthquake...
Predicting the ground response to the propagation of seismic waves is one of the most important aspe...
Shaking strength is one of the most important parameters that characterize earthquake events. In the...
Dynamic centrifuge tests were performed to develop an understanding of soil-pile foundation interac...
The most common procedures for predicting pore pressures generated by earthquake loading in saturate...
Two case histories were analyzed to determine the validity of using nonlinear numerical analysis met...
The importance of predictions of earthquake-induced pore water pressure has been widely recognized f...
The most common procedures for predicting pore pressures generated by earthquake loading in saturate...
Passive stabilization is a novel technique for mitigating the risk of seismic liquefaction in the no...
A method of analysis in two-dimensions to predict static and dynamic response of soil structures, in...
The constitutive relationships proposed by Finn, Lee and Martin (1977) for the effective stress anal...
Analysis of response of level ground subjected to earthquake is one of the most important problems i...
Field observations during past earthquakes have shown that quay walls may experience severe damages ...
Abstract A numerical model based on the finite element framework was developed to predict the seismi...
207 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1981.An analytical procedure is de...
A method for evaluating the soil parameters required for effective stress analyses of the earthquake...
Predicting the ground response to the propagation of seismic waves is one of the most important aspe...
Shaking strength is one of the most important parameters that characterize earthquake events. In the...
Dynamic centrifuge tests were performed to develop an understanding of soil-pile foundation interac...
The most common procedures for predicting pore pressures generated by earthquake loading in saturate...
Two case histories were analyzed to determine the validity of using nonlinear numerical analysis met...
The importance of predictions of earthquake-induced pore water pressure has been widely recognized f...
The most common procedures for predicting pore pressures generated by earthquake loading in saturate...
Passive stabilization is a novel technique for mitigating the risk of seismic liquefaction in the no...