Add to ORKG© 2017. The Liquefaction Experiments and Analysis Projects (LEAP) is an international effort to produce a set of high quality test data and to then use it in a validation exercise of existing computational models and simulation procedures for soil liquefaction analysis. A validation effort (LEAP-GWU 2015) was undertaken using a benchmark centrifuge model of a sloping deposit tested in a rigid-wall container. This article presents and discusses the shear stress-strain responses and effective stress paths of the LEAP-GW 2015 centrifuge tests and numerical predictions (including an assessment of the effects of the rigid boundaries)
Liquefaction-induced damages has proved to be severe, widespread and complex in recent earthquakes. ...
In the framework of the LIQUEFACT project a series of centrifuge tests were conducted at ISMGEO (Ita...
The research presented herein was carried out in the framework of the H2020 LIQUEFACT project (http:...
© 2017. The Liquefaction Experiments and Analysis Projects (LEAP) is an international effort to prod...
© 2017 LEAP (Liquefaction Experiments and Analysis Projects) is an effort to formalize the process a...
The LEAP international collaboratory is introduced and its key objectives and main accomplishments d...
This open access book presents work collected through the Liquefaction Experiments and Analysis Proj...
The second phase of the LEAP project investigating the liquefaction of a 5◦ saturated sand slope has...
As part of the LEAP-GWU-2015 exercise, a dynamic centrifuge test was conducted at the University of ...
The Liquefaction Experiment and Analysis Project (LEAP), an international research collaboration amo...
Within the framework of the LEAP-UCD-2017 exercise, Type B simulations of centrifuge tests were cond...
Liquefaction-induced problems may cause severe damage to infrastructure. Existing simplified empiric...
Liquefaction is a major earthquake-induced hazard that has been studied extensively through the year...
This paper presents a summary of the element test simulations (calibration simulations) submitted by...
The dataset is composed by the results of 37 dynamic geotechnical centrifuge tests performed in the ...
Liquefaction-induced damages has proved to be severe, widespread and complex in recent earthquakes. ...
In the framework of the LIQUEFACT project a series of centrifuge tests were conducted at ISMGEO (Ita...
The research presented herein was carried out in the framework of the H2020 LIQUEFACT project (http:...
© 2017. The Liquefaction Experiments and Analysis Projects (LEAP) is an international effort to prod...
© 2017 LEAP (Liquefaction Experiments and Analysis Projects) is an effort to formalize the process a...
The LEAP international collaboratory is introduced and its key objectives and main accomplishments d...
This open access book presents work collected through the Liquefaction Experiments and Analysis Proj...
The second phase of the LEAP project investigating the liquefaction of a 5◦ saturated sand slope has...
As part of the LEAP-GWU-2015 exercise, a dynamic centrifuge test was conducted at the University of ...
The Liquefaction Experiment and Analysis Project (LEAP), an international research collaboration amo...
Within the framework of the LEAP-UCD-2017 exercise, Type B simulations of centrifuge tests were cond...
Liquefaction-induced problems may cause severe damage to infrastructure. Existing simplified empiric...
Liquefaction is a major earthquake-induced hazard that has been studied extensively through the year...
This paper presents a summary of the element test simulations (calibration simulations) submitted by...
The dataset is composed by the results of 37 dynamic geotechnical centrifuge tests performed in the ...
Liquefaction-induced damages has proved to be severe, widespread and complex in recent earthquakes. ...
In the framework of the LIQUEFACT project a series of centrifuge tests were conducted at ISMGEO (Ita...
The research presented herein was carried out in the framework of the H2020 LIQUEFACT project (http:...