AbstractAs a Lagrangian meshless method, the material point method (MPM) is suitable for dynamic problems with extreme deformation, but its efficiency and accuracy are not as good as that of the finite element method (FEM) for small deformation problems. Therefore, an algorithm for the coupling of FEM and MPM is proposed to take advantages of both methods. Furthermore, a conversion scheme of elements to particles is developed. Hence, the material domain is firstly discretized by finite elements, and then the distorted elements are automatically converted into MPM particles to avoid element entanglement. The interaction between finite elements and MPM particles is implemented based on the background grid in MPM framework. Numerical results a...
There is considerable interest in development of solid mechanics modelling which can cope with both ...
In recent years, the Material Point Method has emerged as a promising alternative to the Finite Elem...
In this paper, an explicit material point finite element (FE) method is proposed and a computer code...
AbstractAs a Lagrangian meshless method, the material point method (MPM) is suitable for dynamic pro...
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...
We extend the material point method (MPM) for robust simulation of extremely large elastic deformati...
The material point method (MPM) is a version of the particle-in-cell (PIC) which has substantial adv...
The Material Point Method (MPM) is a modern finite element method that is classified as a point base...
The simulation of high-rate deformation and failure of metals is has traditionally been performed us...
The material point method (MPM) was designed to solve problems in solid mechanics, and it has been u...
In this paper, we describe a new scalable and modular material point method (MPM) code developed for...
The geotechnical engineering field is full of large deformation problems, ranging from settlements c...
The material point method (MPM) is a continuum-based numerical method hich discretises the object as...
2022 Summer.Includes bibliographical references.Computational engineering has become an effective to...
There is considerable interest in development of solid mechanics modelling which can cope with both ...
In recent years, the Material Point Method has emerged as a promising alternative to the Finite Elem...
In this paper, an explicit material point finite element (FE) method is proposed and a computer code...
AbstractAs a Lagrangian meshless method, the material point method (MPM) is suitable for dynamic pro...
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...
We extend the material point method (MPM) for robust simulation of extremely large elastic deformati...
The material point method (MPM) is a version of the particle-in-cell (PIC) which has substantial adv...
The Material Point Method (MPM) is a modern finite element method that is classified as a point base...
The simulation of high-rate deformation and failure of metals is has traditionally been performed us...
The material point method (MPM) was designed to solve problems in solid mechanics, and it has been u...
In this paper, we describe a new scalable and modular material point method (MPM) code developed for...
The geotechnical engineering field is full of large deformation problems, ranging from settlements c...
The material point method (MPM) is a continuum-based numerical method hich discretises the object as...
2022 Summer.Includes bibliographical references.Computational engineering has become an effective to...
There is considerable interest in development of solid mechanics modelling which can cope with both ...
In recent years, the Material Point Method has emerged as a promising alternative to the Finite Elem...
In this paper, an explicit material point finite element (FE) method is proposed and a computer code...