The material point method (MPM) showed to be well suited to study geotechnical applications involving large deformations, non-linear material behaviour, soil-structure interactions, and multiphase (solid, liquid, gas) interactions. This contribution shows the latest numerical developments implemented in the software Anura3D. Particular attention is given to some geotechnical applications, such as the simulation of slope collapse due to earthquake or water pressure changes, erosion problems, installation problems, underground explosions, and soil-structure interaction in liquefied soils.
MPM DEVELOPMENTS IN SOIL-WATER-STRUCTURE INTERACTION IMPLEMENTED IN ANURA3D
FRANCESCA CECCATO;
2021
Abstract
The material point method (MPM) showed to be well suited to study geotechnical applications involving large deformations, non-linear material behaviour, soil-structure interactions, and multiphase (solid, liquid, gas) interactions. This contribution shows the latest numerical developments implemented in the software Anura3D. Particular attention is given to some geotechnical applications, such as the simulation of slope collapse due to earthquake or water pressure changes, erosion problems, installation problems, underground explosions, and soil-structure interaction in liquefied soils.
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