A vertex-based finite volume (FV) method is presented for the computational solution of quasi-static solid mechanics problems involving material non-linearity and infinitesimal strains. The problems are analysed numerically with fully unstructured meshes that consist of a variety of two- and three-dimensional element types. A detailed comparison between the vertex-based FV and the standard Galerkin FE methods is provided with regard to discretization, solution accuracy and computational efficiency. For some problem classes a direct equivalence of the two methods is demonstrated, both theoretically and numerically. However, for other problems some interesting advantages and disadvantages of the FV formulation over the Galerkin FE method are ...
This paper presents a high-order finite volume method for solving linear elasticity problems on two-...
A face-centred finite volume (FCFV) method is proposed for linear elastostatic problems. The FCFV is...
The demand for accurate and efficient simulations in order to test the geomechanical effects is a re...
A vertex-based finite volume (FV) method is presented for the computational solution of quasi-static...
A number of research groups are now developing and using finite volume (FV) methods for computationa...
The objective of this research is the development of novel three dimensional Finite Volume(FV) algor...
Since its initial development as a tool for structural analysis around the mid-fifties the Finite El...
There is a growing interest in applying finite volume methods to model solid mechanics problems and ...
In this past decade finite volume (FV) methods have increasingly been used for the solution of solid...
A finite-volume (FV) cell vertex method is presented for determining the displacement field for soli...
A finite-volume (FV) cell vertex method is presented for determining the displacement field for soli...
With the increase of the computational power over the last decades, computational solid dynamics has...
A wide variety of physical problems in continuum mechanics are commonly treated by numerical methods...
Within this paper we discuss a numerical strategy to solve the elasticity problem upon unstructured ...
This paper presents an explicit vertex centred finite volume method for the solution of fast transie...
This paper presents a high-order finite volume method for solving linear elasticity problems on two-...
A face-centred finite volume (FCFV) method is proposed for linear elastostatic problems. The FCFV is...
The demand for accurate and efficient simulations in order to test the geomechanical effects is a re...
A vertex-based finite volume (FV) method is presented for the computational solution of quasi-static...
A number of research groups are now developing and using finite volume (FV) methods for computationa...
The objective of this research is the development of novel three dimensional Finite Volume(FV) algor...
Since its initial development as a tool for structural analysis around the mid-fifties the Finite El...
There is a growing interest in applying finite volume methods to model solid mechanics problems and ...
In this past decade finite volume (FV) methods have increasingly been used for the solution of solid...
A finite-volume (FV) cell vertex method is presented for determining the displacement field for soli...
A finite-volume (FV) cell vertex method is presented for determining the displacement field for soli...
With the increase of the computational power over the last decades, computational solid dynamics has...
A wide variety of physical problems in continuum mechanics are commonly treated by numerical methods...
Within this paper we discuss a numerical strategy to solve the elasticity problem upon unstructured ...
This paper presents an explicit vertex centred finite volume method for the solution of fast transie...
This paper presents a high-order finite volume method for solving linear elasticity problems on two-...
A face-centred finite volume (FCFV) method is proposed for linear elastostatic problems. The FCFV is...
The demand for accurate and efficient simulations in order to test the geomechanical effects is a re...