A Depth‐Averaged Material Point Method for Shallow Landslides: Applications to Snow Slab Avalanche Release

Abstract: Shallow landslides pose a significant threat to people and infrastructure. Despite significant progress in the understanding of such phenomena, the evaluation of the size of the landslide release zone, a crucial input for risk assessment, still remains a challenge. While often modeled based on limit equilibrium analysis, finite or discrete elements, continuum particle‐based approaches like the Material Point Method (MPM) have more recently been successful in modeling their full 3D elasto‐plastic behavior. In t… Show more

“…This could yield insights to evaluate the utility of elasto-(visco)plastic models in glacier modeling. Another perspective would be to develop a shallow-shelf approximation of this model to address efficiently large scale geometries such as proposed by Huth et al (2021b) and Guillet et al (2023). Lastly, the model presented here can be used or extended easily to model fracture processes in a broader spectrum of earth science applications, particularly for snow, rock or ice avalanches, tectonics and landslides.…”

Transition Between Mechanical and Geometric Controls in Glacier Crevassing Processes

“…This could yield insights to evaluate the utility of elasto-(visco)plastic models in glacier modeling. Another perspective would be to develop a shallow-shelf approximation of this model to address efficiently large scale geometries such as proposed by Huth et al (2021b) and Guillet et al (2023). Lastly, the model presented here can be used or extended easily to model fracture processes in a broader spectrum of earth science applications, particularly for snow, rock or ice avalanches, tectonics and landslides.…”

Transition Between Mechanical and Geometric Controls in Glacier Crevassing Processes

A modified smoothed particle hydrodynamics method considering residual stress for simulating failure and its application in layered rock mass

A semi-conservative depth-averaged material point method for fast flow-like landslides and mudflows