A rigorous derivation and validation for linear fluid-structure-interaction (FSI) equations for a rigid-body-motion problem is performed in an Eulerian framework. We show that the “added-stiffness” terms arising in the formulation of Fanion et al. (2000) vanish at the FSI interface in a first-order approximation. Several numerical tests with rigid-body motion are performed to show the validity of the derived formulation by comparing the time evolution between the linear and non-linear equations when the base flow is perturbed by identical small-amplitude perturbations. In all cases both the growth rate and angular frequency of the instability matches within 0.1% accuracy. The derived formulation is used to investigate the phenomenon of symm...
International audienceThis paper constitutes the numerical counterpart of the mathematical framework...
A new formulation for two-dimensional fluid-rigid body interaction problems is developed. In particu...
We present an operator-splitting scheme for fluid-structure interaction (FSI) problems in hemodynami...
A rigorous derivation and validation for linear fluid-structure-interaction (FSI) equations for a ri...
Fluid–structure interaction computations in geometries where different chambers are almost completel...
The stability of relaxation techniques has been studied for strongly coupled fluid-structure interac...
In partitioned simulations of fluid-structure interaction (FSI), the flow equations and the structur...
We propose a full Eulerian framework for solving fluid‐structure interaction (FSI) problems based on...
In this article we describe a stable partitioned algorithm that overcomes the added mass instability...
In the conventional approach for fluid-structure interaction problems, the fluid and solid component...
The computational procedure presented in this study is focussed on the time-dependent solution of tw...
We investigate problems of fluid structure interaction type and aim for a formulation that leads to ...
This paper investigates the origin of flow-induced instabilities and their sensitivities in a flow o...
Abstract. We consider in this paper numerical approximation of the linear fluid-structure interactio...
Considerable research activities in vibration and seismic analysis for various fluid-structure syste...
International audienceThis paper constitutes the numerical counterpart of the mathematical framework...
A new formulation for two-dimensional fluid-rigid body interaction problems is developed. In particu...
We present an operator-splitting scheme for fluid-structure interaction (FSI) problems in hemodynami...
A rigorous derivation and validation for linear fluid-structure-interaction (FSI) equations for a ri...
Fluid–structure interaction computations in geometries where different chambers are almost completel...
The stability of relaxation techniques has been studied for strongly coupled fluid-structure interac...
In partitioned simulations of fluid-structure interaction (FSI), the flow equations and the structur...
We propose a full Eulerian framework for solving fluid‐structure interaction (FSI) problems based on...
In this article we describe a stable partitioned algorithm that overcomes the added mass instability...
In the conventional approach for fluid-structure interaction problems, the fluid and solid component...
The computational procedure presented in this study is focussed on the time-dependent solution of tw...
We investigate problems of fluid structure interaction type and aim for a formulation that leads to ...
This paper investigates the origin of flow-induced instabilities and their sensitivities in a flow o...
Abstract. We consider in this paper numerical approximation of the linear fluid-structure interactio...
Considerable research activities in vibration and seismic analysis for various fluid-structure syste...
International audienceThis paper constitutes the numerical counterpart of the mathematical framework...
A new formulation for two-dimensional fluid-rigid body interaction problems is developed. In particu...
We present an operator-splitting scheme for fluid-structure interaction (FSI) problems in hemodynami...