In this paper, an automatic adaptive coupling procedure is proposed for the finite element method (FEM) and the element-free Galerkin method (EFGM) for linear elasticity and for problems with both material and geometrical nonlinearities. In this new procedure, initially the whole of the problem domain is modelled using the FEM. During an analysis, those finite elements which violate a predefined error measure are automatically converted to an EFG zone. This EFG zone can be further refined by adding nodes, thus avoiding computationally expensive FE remeshing. Local maximum entropy shape functions are used in the EFG zone of the problem domain for two reasons: their weak Kronecker delta property at the boundaries allows straightforward imposi...
Conventional mesh-based methods for solid mechanics problems suffer from issues resulting from the u...
We present a method for the automatic adaption of the support size of meshfree basis functions in th...
Meshless methods have long been a topic of interest in computational modelling in solid mechanics an...
In this paper, a new method for coupling the finite element method (FEM) and the element-free Galer...
A variety of meshless methods have been developed in the last fifteen years with an intention to sol...
Three-dimensional problems with both material and geometrical nonlinearities are of practical import...
In this paper, a new method for coupling the finite element method (FEM)and the element-free Galerki...
The element free Galerkin method (EFGM) [1] is one of the most robust meshless methods for the solu...
peer reviewedIn this paper, we develop a method based on local maximum entropy shape functions toget...
Purpose A variety of meshless methods have been developed in the last twenty years with an intentio...
Efficient computational modelling of problems with material and geometric nonlinearities is very cha...
Purpose: A variety of meshless methods have been developed in the last twenty years with an intent...
We introduce an improved meshfree approximation scheme which is based on the local maximum-entropy s...
This is the pre-peer reviewed version of the following article: Arroyo, M.; Ortiz, M. Local maximum-...
This thesis develops an enhanced meshfree method based on the local maximum-entropy (max-ent) approx...
Conventional mesh-based methods for solid mechanics problems suffer from issues resulting from the u...
We present a method for the automatic adaption of the support size of meshfree basis functions in th...
Meshless methods have long been a topic of interest in computational modelling in solid mechanics an...
In this paper, a new method for coupling the finite element method (FEM) and the element-free Galer...
A variety of meshless methods have been developed in the last fifteen years with an intention to sol...
Three-dimensional problems with both material and geometrical nonlinearities are of practical import...
In this paper, a new method for coupling the finite element method (FEM)and the element-free Galerki...
The element free Galerkin method (EFGM) [1] is one of the most robust meshless methods for the solu...
peer reviewedIn this paper, we develop a method based on local maximum entropy shape functions toget...
Purpose A variety of meshless methods have been developed in the last twenty years with an intentio...
Efficient computational modelling of problems with material and geometric nonlinearities is very cha...
Purpose: A variety of meshless methods have been developed in the last twenty years with an intent...
We introduce an improved meshfree approximation scheme which is based on the local maximum-entropy s...
This is the pre-peer reviewed version of the following article: Arroyo, M.; Ortiz, M. Local maximum-...
This thesis develops an enhanced meshfree method based on the local maximum-entropy (max-ent) approx...
Conventional mesh-based methods for solid mechanics problems suffer from issues resulting from the u...
We present a method for the automatic adaption of the support size of meshfree basis functions in th...
Meshless methods have long been a topic of interest in computational modelling in solid mechanics an...