Add to ORKGAbstract: The paper reports a study aimed to the prediction of susceptibility to flowslide of granular soil slopes as a consequence of the in situ state of stress. In particular, the slope geometry has been investigated as a factor influencing the initial state of stress. For this purpose the results of numerical models, performed by a finite different approach (FLAC), allowed the complete definition, in any point of the slope, of the stress conditions by changing slope height and inclination. By relating this state of stress to parameters used to describe potential for liquefaction of loose granular soils a chart of instability has been set up
In tropical areas, most cases of slope failures have been due to rainfall. Slope failure is one of ...
The paper describes a slope failure in granular colluvium, together with its geomorphological, seism...
Landslides triggered by hydraulic perturbations are initiated by a decrease in the effective stress,...
The paper reports a study aimed to the prediction of susceptibility to flowslide of granular soil sl...
In this study, landslide potential is investigated, using a new constitutive relationship for granul...
© 2008 American Meteorological Society, American Geophysical Union, & Association of American Geogra...
Mitigation of the risk of flowslides is a heavy task because of the uncertainties existing about pre...
In recent years, a number of catastrophic flowslides revealed the high risk which threatens wide are...
This paper illustrates an application of the theory of material stability to the analysis of unsatur...
Experience shows that slope movements occurring in similar geomorphogical contexts may display very ...
The paper presents a methodology to evaluate flow slide susceptibility in potentially liquefiable sa...
A numerical study on the onset of static liquefaction in slopes under undrained conditions of loadin...
The state-of-the-practice uses the “simplified procedure” for evaluating liquefaction susceptibility...
Of all landslides, subaerial flowslides are the most dangerous. According to the literature, flowsli...
Flowslides and retrogressive slope failures are usually triggered from a significant drop of shear s...
In tropical areas, most cases of slope failures have been due to rainfall. Slope failure is one of ...
The paper describes a slope failure in granular colluvium, together with its geomorphological, seism...
Landslides triggered by hydraulic perturbations are initiated by a decrease in the effective stress,...
The paper reports a study aimed to the prediction of susceptibility to flowslide of granular soil sl...
In this study, landslide potential is investigated, using a new constitutive relationship for granul...
© 2008 American Meteorological Society, American Geophysical Union, & Association of American Geogra...
Mitigation of the risk of flowslides is a heavy task because of the uncertainties existing about pre...
In recent years, a number of catastrophic flowslides revealed the high risk which threatens wide are...
This paper illustrates an application of the theory of material stability to the analysis of unsatur...
Experience shows that slope movements occurring in similar geomorphogical contexts may display very ...
The paper presents a methodology to evaluate flow slide susceptibility in potentially liquefiable sa...
A numerical study on the onset of static liquefaction in slopes under undrained conditions of loadin...
The state-of-the-practice uses the “simplified procedure” for evaluating liquefaction susceptibility...
Of all landslides, subaerial flowslides are the most dangerous. According to the literature, flowsli...
Flowslides and retrogressive slope failures are usually triggered from a significant drop of shear s...
In tropical areas, most cases of slope failures have been due to rainfall. Slope failure is one of ...
The paper describes a slope failure in granular colluvium, together with its geomorphological, seism...
Landslides triggered by hydraulic perturbations are initiated by a decrease in the effective stress,...