The simulation of slope failures, including both failure initiation and development, has been modelled using the material point method. By utilising a constitutive model which encompasses, in a simplified manner, both pre- and post-failure behaviour, the majority of types of geotechnical slope failure can be observed in the simulations. This is a step towards being able to better quantify the consequences of slope failures and thereby to a better quantification of risk. Numerical case studies involving various slope angles, heterogeneity and rainfall induced slope failures are presented to demonstrate the ability of the method to simulate commonly observed failure modes
This thesis is concerned with the simulation of progressive failure within soil slopes considering, ...
In geotechnical engineering, proper design of retaining structures is of great importance, since fai...
Mesh based methods such as the finite element method (FEM) are the most usually used techniques for ...
The simulation of slope failures, including both failure initiation and development, has been modell...
The simulation of slope failures, including both failure initiation and development, has been modell...
The material point method (MPM) has the potential to simulate the onset, the full evolution and the ...
In this work, the progressive failure phenomenon is studied using the Material Point Method (MPM). M...
Rainfall-induced slope failures are a major category of slope failure, with incidents likely to incr...
The random material point method (RMPM), which combines random field theory and the material point m...
Rain induced instabilities are a common geotechnical problem specially in partially saturated soils....
In recent years, the Material Point Method (MPM) has been applied to a number of geotechnical proble...
Abstract The material point method (MPM) is recently considered a powerful tool in an...
In this paper a slope stability problem due to an increase of the pore pressure is analysed by means...
Identifying stratigraphic heterogeneities, like weak cohesive layers in natural and artificial slope...
Flowslides and retrogressive slope failures are usually triggered from a significant drop of shear s...
This thesis is concerned with the simulation of progressive failure within soil slopes considering, ...
In geotechnical engineering, proper design of retaining structures is of great importance, since fai...
Mesh based methods such as the finite element method (FEM) are the most usually used techniques for ...
The simulation of slope failures, including both failure initiation and development, has been modell...
The simulation of slope failures, including both failure initiation and development, has been modell...
The material point method (MPM) has the potential to simulate the onset, the full evolution and the ...
In this work, the progressive failure phenomenon is studied using the Material Point Method (MPM). M...
Rainfall-induced slope failures are a major category of slope failure, with incidents likely to incr...
The random material point method (RMPM), which combines random field theory and the material point m...
Rain induced instabilities are a common geotechnical problem specially in partially saturated soils....
In recent years, the Material Point Method (MPM) has been applied to a number of geotechnical proble...
Abstract The material point method (MPM) is recently considered a powerful tool in an...
In this paper a slope stability problem due to an increase of the pore pressure is analysed by means...
Identifying stratigraphic heterogeneities, like weak cohesive layers in natural and artificial slope...
Flowslides and retrogressive slope failures are usually triggered from a significant drop of shear s...
This thesis is concerned with the simulation of progressive failure within soil slopes considering, ...
In geotechnical engineering, proper design of retaining structures is of great importance, since fai...
Mesh based methods such as the finite element method (FEM) are the most usually used techniques for ...