The Material Point Method (MPM) is a quasi Eulerian-Lagrangian approach to solve solid mechanics problems involving large deformations. The standard MPM discretises the physical domain using material points which are advected through a standard finite element background mesh. The method of mapping state variables back and forth between the material points and background mesh nodes in the MPM significantly influences the results. In the standard MPM (sMPM), a material point only influences its parent element (i.e. the background element in which it is located), which can cause spurious stress oscillations when material points cross between elements. The instability is due to the sudden transfer of stiffness between elements. It can also resu...
There is considerable interest in development of solid mechanics modelling which can cope with both ...
The material point method (MPM) was designed to solve problems in solid mechanics, and it has been u...
The numerical simulation of real geomechanical problems often entails an high level of complexity; i...
The Material Point Method (MPM) is a quasi Eulerian-Lagrangian approach to solve solid mechanics pr...
The Material Point Method (MPM) is a quasi Eulerian-Lagrangian approach to solve solid mechanics pro...
Challenging solid mechanics problems exist in areas such as geotechnical and biomedical engineering ...
Challenging solid mechanics problems exist in areas such as geotechnical and biomedical engineering ...
In geotechnical engineering and foundations there are problems that involve large deformations, cont...
The material-point method (MPM) is a new numerical method for analysis of large strain engineering p...
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 ability to correctly capture large deformation behaviour in solids is important in many problems...
The geotechnical engineering field is full of large deformation problems, ranging from settlements c...
The material point method (MPM) is a numerical technique which has been demonstrated to be suitable ...
There is considerable interest in development of solid mechanics modelling which can cope with both ...
The material point method (MPM) was designed to solve problems in solid mechanics, and it has been u...
The numerical simulation of real geomechanical problems often entails an high level of complexity; i...
The Material Point Method (MPM) is a quasi Eulerian-Lagrangian approach to solve solid mechanics pr...
The Material Point Method (MPM) is a quasi Eulerian-Lagrangian approach to solve solid mechanics pro...
Challenging solid mechanics problems exist in areas such as geotechnical and biomedical engineering ...
Challenging solid mechanics problems exist in areas such as geotechnical and biomedical engineering ...
In geotechnical engineering and foundations there are problems that involve large deformations, cont...
The material-point method (MPM) is a new numerical method for analysis of large strain engineering p...
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 ability to correctly capture large deformation behaviour in solids is important in many problems...
The geotechnical engineering field is full of large deformation problems, ranging from settlements c...
The material point method (MPM) is a numerical technique which has been demonstrated to be suitable ...
There is considerable interest in development of solid mechanics modelling which can cope with both ...
The material point method (MPM) was designed to solve problems in solid mechanics, and it has been u...
The numerical simulation of real geomechanical problems often entails an high level of complexity; i...