A variety of meshless methods have been developed in the last fifteen years with an intention to solve practical engineering problems, but are limited to small academic problems due to associated high computational cost as compared to the standard finite element methods (FEM). The main objective of this thesis is the development of an efficient and accurate algorithm based on meshless methods for the solution of problems involving both material and geometrical nonlinearities, which are of practical importance in many engineering applications, including geomechanics, metal forming and biomechanics. One of the most commonly used meshless methods, the element-free Galerkin method (EFGM) is used in this research, in which maximum entropy shape ...
Finite element method has been the dominant technique in computational mechanics in the past decades...
In this study, an adaptive refinement procedure using the element free Galerkin method (EFGM) for th...
A finite strain finite element (FE)-based approach to element-free Galerkin (EFG) discretization is ...
Purpose A variety of meshless methods have been developed in the last twenty years with an intentio...
Purpose: A variety of meshless methods have been developed in the last twenty years with an intent...
In this paper, an automatic adaptive coupling procedure is proposed for the finite element method (F...
Three-dimensional problems with both material and geometrical nonlinearities are of practical import...
Efficient computational modelling of problems including both material and geometric nonlinearities r...
Efficient computational modelling of problems with material and geometric nonlinearities is very cha...
The element free Galerkin method (EFGM) [1] is one of the most robust meshless methods for the solu...
A meshless approach to the analysis of two-dimensional elasticity problems by the Element-Free Galer...
The study present a Mesh Free based post-processing technique for asymptotically (upper) bounded err...
The implementation of an h-adaptive Element-Free Galerkin (EFG) method in the framework of limit ana...
Conventional mesh-based methods for solid mechanics problems suffer from issues resulting from the u...
In this work, a Meshless approach for nonlinear solid mechanics is developed based on the Element Fr...
Finite element method has been the dominant technique in computational mechanics in the past decades...
In this study, an adaptive refinement procedure using the element free Galerkin method (EFGM) for th...
A finite strain finite element (FE)-based approach to element-free Galerkin (EFG) discretization is ...
Purpose A variety of meshless methods have been developed in the last twenty years with an intentio...
Purpose: A variety of meshless methods have been developed in the last twenty years with an intent...
In this paper, an automatic adaptive coupling procedure is proposed for the finite element method (F...
Three-dimensional problems with both material and geometrical nonlinearities are of practical import...
Efficient computational modelling of problems including both material and geometric nonlinearities r...
Efficient computational modelling of problems with material and geometric nonlinearities is very cha...
The element free Galerkin method (EFGM) [1] is one of the most robust meshless methods for the solu...
A meshless approach to the analysis of two-dimensional elasticity problems by the Element-Free Galer...
The study present a Mesh Free based post-processing technique for asymptotically (upper) bounded err...
The implementation of an h-adaptive Element-Free Galerkin (EFG) method in the framework of limit ana...
Conventional mesh-based methods for solid mechanics problems suffer from issues resulting from the u...
In this work, a Meshless approach for nonlinear solid mechanics is developed based on the Element Fr...
Finite element method has been the dominant technique in computational mechanics in the past decades...
In this study, an adaptive refinement procedure using the element free Galerkin method (EFGM) for th...
A finite strain finite element (FE)-based approach to element-free Galerkin (EFG) discretization is ...