A simple method to automatically update the finite element mesh of the analysis domain is proposed. The method considers the mesh as a fictitious elastic body subjected to prescribed displacements at selected boundary points. The mechanical properties of each mesh element are appropriately selected in order to minimize the deformation and the distortion of the mesh elements. Different selection strategies have been used and compared in their application to simple examples. The method avoids the use of remeshing in the solution of shape optimization problems and reduces the number of remeshing steps in the solution of coupled fluid–structure interaction problem
In structural engineering, a finite element model is often used to estimate its dynamic or static be...
ABSTRACT: This paper presents an adaptive FEM-BEM coupling method to solve non-linear problems invol...
This paper deals with Finite Element (FE) modeling of human body structures. More specifically, it f...
A simple method to automatically update the finite element mesh of the analysis domain is proposed f...
A simple method to automatically update the finite element mesh of the analysis domain is proposed. ...
Finite element model updating is an inverse problem to identify and correct uncertain modeling param...
Virtual prototyping and numerical simulations are increasingly replacing real mock-ups and experimen...
This contribution is concerned with the coupling of finite element based shape optimization to metho...
This paper describes an automated approach to deform an analysis mesh applied to a computer-aided de...
AbstractIn this paper we propose a new approach for an optimization of finite element analysis in el...
Abstract. The analysis of mechanical structures, using the Finite Element Method in the framework of...
The use of the mechanical simulation (in particular the finite element analysis) requires the manage...
In this chapter, Finite Element Model Updating method is discussed. The method constitutes a widely ...
Several authors have employed Finite Element Analysis (FEA) for stress and strain analysis in orthop...
AbstractIn this paper we describe an automatic refinement of finite-element meshes in structural ana...
In structural engineering, a finite element model is often used to estimate its dynamic or static be...
ABSTRACT: This paper presents an adaptive FEM-BEM coupling method to solve non-linear problems invol...
This paper deals with Finite Element (FE) modeling of human body structures. More specifically, it f...
A simple method to automatically update the finite element mesh of the analysis domain is proposed f...
A simple method to automatically update the finite element mesh of the analysis domain is proposed. ...
Finite element model updating is an inverse problem to identify and correct uncertain modeling param...
Virtual prototyping and numerical simulations are increasingly replacing real mock-ups and experimen...
This contribution is concerned with the coupling of finite element based shape optimization to metho...
This paper describes an automated approach to deform an analysis mesh applied to a computer-aided de...
AbstractIn this paper we propose a new approach for an optimization of finite element analysis in el...
Abstract. The analysis of mechanical structures, using the Finite Element Method in the framework of...
The use of the mechanical simulation (in particular the finite element analysis) requires the manage...
In this chapter, Finite Element Model Updating method is discussed. The method constitutes a widely ...
Several authors have employed Finite Element Analysis (FEA) for stress and strain analysis in orthop...
AbstractIn this paper we describe an automatic refinement of finite-element meshes in structural ana...
In structural engineering, a finite element model is often used to estimate its dynamic or static be...
ABSTRACT: This paper presents an adaptive FEM-BEM coupling method to solve non-linear problems invol...
This paper deals with Finite Element (FE) modeling of human body structures. More specifically, it f...