Add to ORKGA 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
Abstract. The analysis of mechanical structures, using the Finite Element Method in the framework of...
This thesis presents a vertex repositioning based boundary smoothing technique so that the finite el...
Topological mesh adaptivity can be required in problems involving large displacements or de-formatio...
A simple method to automatically update the finite element mesh of the analysis domain is proposed. ...
A simple method to automatically update the finite element mesh of the analysis domain is proposed f...
Grid adaptive methods combined with means for automatic remeshing are applied to problems in shape o...
Virtual prototyping and numerical simulations are increasingly replacing real mock-ups and experimen...
The elements geometry in finite element meshes can be enhanced by means of mesh smoothing procedures...
This contribution presents a novel approach to structural shape optimization that relies on an embed...
This contribution is concerned with the coupling of finite element based shape optimization to metho...
Simulation of non-steady state processes may incur a significant transformation of theirs physical d...
This paper describes an automated approach to deform an analysis mesh applied to a computer-aided de...
Report on activity presented to RAS.The presence of moving meshes when motions of fluids and solids ...
Various numerical methods are used in engineering analysis, among which the finite element method (F...
AbstractIn this paper we describe an automatic refinement of finite-element meshes in structural ana...
Abstract. The analysis of mechanical structures, using the Finite Element Method in the framework of...
This thesis presents a vertex repositioning based boundary smoothing technique so that the finite el...
Topological mesh adaptivity can be required in problems involving large displacements or de-formatio...
A simple method to automatically update the finite element mesh of the analysis domain is proposed. ...
A simple method to automatically update the finite element mesh of the analysis domain is proposed f...
Grid adaptive methods combined with means for automatic remeshing are applied to problems in shape o...
Virtual prototyping and numerical simulations are increasingly replacing real mock-ups and experimen...
The elements geometry in finite element meshes can be enhanced by means of mesh smoothing procedures...
This contribution presents a novel approach to structural shape optimization that relies on an embed...
This contribution is concerned with the coupling of finite element based shape optimization to metho...
Simulation of non-steady state processes may incur a significant transformation of theirs physical d...
This paper describes an automated approach to deform an analysis mesh applied to a computer-aided de...
Report on activity presented to RAS.The presence of moving meshes when motions of fluids and solids ...
Various numerical methods are used in engineering analysis, among which the finite element method (F...
AbstractIn this paper we describe an automatic refinement of finite-element meshes in structural ana...
Abstract. The analysis of mechanical structures, using the Finite Element Method in the framework of...
This thesis presents a vertex repositioning based boundary smoothing technique so that the finite el...
Topological mesh adaptivity can be required in problems involving large displacements or de-formatio...