Add to ORKGFrank avalanche, which took place in Canada in 1903, is analyzed to understand the mechanisms involved in the processes of propagation using of advanced simulation tools allows to estimate the landslide propagation path, its velocity and the height of the deposits. The scope of the present approach focuses in the influence of the rheological and fragmentation laws in the evolution of the avalanche. The main contribution of the paper is (i) the development of a rheological model coupled with a fragmentation model, and (ii) its application to a real avalanche.We have made a study of sensitivity for different models and rheological parameters, which has helped us to optimize the approximation
A numerical model set up to simulate rapid flowlike landslide motion across three-dimensional terrai...
This paper considers a model that reproduces the dynamics of snow avalanches from initiation to runo...
A large-scale avalanche of Earth material is modeled here as a granular flow using a distinct elemen...
Frank avalanche, which took place in Canada in 1903, is analyzed to understand the mechanisms involv...
Frank avalanche, which took place in Canada in 1903, is analyzed to understand the mechanisms involv...
Classical depth-integrated smoothed particle hydrodynamics (SPH) models for avalanches are extended ...
Rock avalanches present high velocities of propagation, and large volume of materials that generate ...
The thesis contains a study on the apparent low friction in the motion of rock avalanches. A literat...
Background: Rock avalanches are flow-like landslides that can travel at extremely r...
Numerical simulation can provide a useful tool for investigating the dynamics of phenomena like rock...
International audienceWe present a 2-D Contact Dynamics discrete element model for simulating initia...
Rock avalanches are high velocity flows of fragmented rock that can dramatically alter landscapes, a...
Several authors have resorted to physical modelling in the field of rock avalanches. After a review ...
Rock avalanches are extreme and destructive mass movements in which large volumes of rock (typicall...
Two models simulating snow avalanches impacting retaining dams at oblique angles of incidence are pr...
A numerical model set up to simulate rapid flowlike landslide motion across three-dimensional terrai...
This paper considers a model that reproduces the dynamics of snow avalanches from initiation to runo...
A large-scale avalanche of Earth material is modeled here as a granular flow using a distinct elemen...
Frank avalanche, which took place in Canada in 1903, is analyzed to understand the mechanisms involv...
Frank avalanche, which took place in Canada in 1903, is analyzed to understand the mechanisms involv...
Classical depth-integrated smoothed particle hydrodynamics (SPH) models for avalanches are extended ...
Rock avalanches present high velocities of propagation, and large volume of materials that generate ...
The thesis contains a study on the apparent low friction in the motion of rock avalanches. A literat...
Background: Rock avalanches are flow-like landslides that can travel at extremely r...
Numerical simulation can provide a useful tool for investigating the dynamics of phenomena like rock...
International audienceWe present a 2-D Contact Dynamics discrete element model for simulating initia...
Rock avalanches are high velocity flows of fragmented rock that can dramatically alter landscapes, a...
Several authors have resorted to physical modelling in the field of rock avalanches. After a review ...
Rock avalanches are extreme and destructive mass movements in which large volumes of rock (typicall...
Two models simulating snow avalanches impacting retaining dams at oblique angles of incidence are pr...
A numerical model set up to simulate rapid flowlike landslide motion across three-dimensional terrai...
This paper considers a model that reproduces the dynamics of snow avalanches from initiation to runo...
A large-scale avalanche of Earth material is modeled here as a granular flow using a distinct elemen...