The material point method (MPM) is a numerical technique which has been demonstrated to be suitable for simulating numerous mechanical problems, particularly large deformation problems, while conserving mass,momentum and energy. MPM discretises material into points and solves the governing equations on a background mesh which discretises the domain space. The points are able to move through the mesh during the simulation. MPM is an improvement over other well-established numerical techniques, such as the finite element method (FEM), as it is able to simulate large deformations and therefore can simulate mechanical problems from initiation to the final outcome. It has the potential to become the preferred numerical tool to analyse many engin...
This paper presents the ongoing work aimed at developing the material point method (MPM) to solve ge...
The material point method (MPM) is a meshfree mixed Lagrangian-Eulerian method which utilizes moving...
There is considerable interest in development of solid mechanics modelling which can cope with both ...
The material point method (MPM) is a numerical technique which has been demonstrated to be suitable ...
The Material Point Method (MPM) has been developed as a special finite element-based method for larg...
Many different numerical methods are being used for geotechnical calculations, of which the most com...
In geotechnical engineering and foundations there are problems that involve large deformations, cont...
In recent years, the Material Point Method has emerged as a promising alternative to the Finite Elem...
This paper investigates the possibility of using the material point method (MPM) to solve small stra...
This practical guide provides the best introduction to large deformation material point method (MPM)...
Stress oscillations are a common phenomenon in the material point method (MPM), since this numerical...
There is considerable interest in development of solid mechanics modelling which can cope with both ...
The Material Point Method (MPM) for solid mechanics was first proposed by Sulsky and coworkers in th...
The material point method (MPM) shows promise for the simulation of large deformations in history-de...
The numerical simulation of real geomechanical problems often entails an high level of complexity; i...
This paper presents the ongoing work aimed at developing the material point method (MPM) to solve ge...
The material point method (MPM) is a meshfree mixed Lagrangian-Eulerian method which utilizes moving...
There is considerable interest in development of solid mechanics modelling which can cope with both ...
The material point method (MPM) is a numerical technique which has been demonstrated to be suitable ...
The Material Point Method (MPM) has been developed as a special finite element-based method for larg...
Many different numerical methods are being used for geotechnical calculations, of which the most com...
In geotechnical engineering and foundations there are problems that involve large deformations, cont...
In recent years, the Material Point Method has emerged as a promising alternative to the Finite Elem...
This paper investigates the possibility of using the material point method (MPM) to solve small stra...
This practical guide provides the best introduction to large deformation material point method (MPM)...
Stress oscillations are a common phenomenon in the material point method (MPM), since this numerical...
There is considerable interest in development of solid mechanics modelling which can cope with both ...
The Material Point Method (MPM) for solid mechanics was first proposed by Sulsky and coworkers in th...
The material point method (MPM) shows promise for the simulation of large deformations in history-de...
The numerical simulation of real geomechanical problems often entails an high level of complexity; i...
This paper presents the ongoing work aimed at developing the material point method (MPM) to solve ge...
The material point method (MPM) is a meshfree mixed Lagrangian-Eulerian method which utilizes moving...
There is considerable interest in development of solid mechanics modelling which can cope with both ...