International audienceA quadtree-based fully Eulerian finite volume approach for the simulation of fluid-structure interaction problems is presented. Both fluid and structure phases are solved monolithically on the whole computational domain. The discretization stencils are limited to the first layer of neighbors thus enhancing the efficiency of the parallel computations while limiting the numerical order of the finite volume discretizations that can be reached. The behavior of hyperelastic structures is described with the non-linear Mooney-Rivlin model. The simulation of several two dimensional test cases is performed on uniform and quadtree grids and results are compared with the literature. To illustrate the versatility of the numerical ...
Unlike ordinary liquids, complex fluids such as blood exhibit strange behavior mainly dependent unde...
A three-dimensional finite volume, unstructured mesh (FV-UM) method for dynamic fluid–structure inte...
Some numerical approaches to solve fluid structure interaction problems in blood flow are reviewed. ...
International audienceA quadtree-based fully Eulerian finite volume approach for the simulation of f...
The numerical simulation of fluid-structure interaction problems is increasingly used in most fields...
Le recours à la simulation numérique de problèmes d'interaction fluide-structure est de plus en plus...
The present article deals with the simulation of fluid structure interaction problems in large defor...
International audienceAccuracy is critical if we are to trust the simulation predictions. In setting...
We present a numerical method specifically designed for simulating three-dimensional fluid--structur...
AbstractWe have developed novel numerical methods for fluid-structure and fluid-membrane interaction...
ABSTRACT A full Eulerian finite difference method has been developed for solving a dynamic interacti...
An algorithm to simulate 3D fluid–structure interaction problems using the finite element technique ...
In this paper a combined arbitrary Lagrange-Euler fictitious domain (ALE-FD) method for fluidstructu...
Abstract. A fully coupled numerical algorithm has been developed for the numerical simu-lation of la...
The numerical simulation of fluid-structure interaction by the finite element method has been studie...
Unlike ordinary liquids, complex fluids such as blood exhibit strange behavior mainly dependent unde...
A three-dimensional finite volume, unstructured mesh (FV-UM) method for dynamic fluid–structure inte...
Some numerical approaches to solve fluid structure interaction problems in blood flow are reviewed. ...
International audienceA quadtree-based fully Eulerian finite volume approach for the simulation of f...
The numerical simulation of fluid-structure interaction problems is increasingly used in most fields...
Le recours à la simulation numérique de problèmes d'interaction fluide-structure est de plus en plus...
The present article deals with the simulation of fluid structure interaction problems in large defor...
International audienceAccuracy is critical if we are to trust the simulation predictions. In setting...
We present a numerical method specifically designed for simulating three-dimensional fluid--structur...
AbstractWe have developed novel numerical methods for fluid-structure and fluid-membrane interaction...
ABSTRACT A full Eulerian finite difference method has been developed for solving a dynamic interacti...
An algorithm to simulate 3D fluid–structure interaction problems using the finite element technique ...
In this paper a combined arbitrary Lagrange-Euler fictitious domain (ALE-FD) method for fluidstructu...
Abstract. A fully coupled numerical algorithm has been developed for the numerical simu-lation of la...
The numerical simulation of fluid-structure interaction by the finite element method has been studie...
Unlike ordinary liquids, complex fluids such as blood exhibit strange behavior mainly dependent unde...
A three-dimensional finite volume, unstructured mesh (FV-UM) method for dynamic fluid–structure inte...
Some numerical approaches to solve fluid structure interaction problems in blood flow are reviewed. ...