This paper presents a hybrid finite-element/boundary-element method for fluid-structure-interaction simulations of inflatable structures. The flow model consists of the steady Stokes equation, which admits a boundary-integral formulation. The structure is represented by a Kirchhoff-Love shell. The boundary-element approximation of the Stokes equation reduces the flow problem to an integral equation on the actual structure configuration, thus obviating the need for volumetric meshing of the strongly deforming fluid domain. The Stokes model moreover exhibits a lubrication effect that acts as an intrinsic mechanism to treat the ubiquitous self-contact that occurs in inflation problems. The aggregated fluid-structure-interaction problem, compos...
An improved methodology for flow structure interaction problems involving large struc-tural deformat...
Finite element formulations for fluid-structure interaction assuming an inviscid fluid can be classi...
peer reviewedThe paper introduces a weighted residual-based approach for the numerical investigation...
This paper presents a hybrid finite-element/boundary-element method for fluid-structure-interaction ...
We present a combined finite-element/boundary-element method to simulate inflation processes, charac...
This work concerns the interaction of light membrane structures enclosing incompressible fluids. Lar...
This paper focuses on numerical techniques for inflatable structures where, typically, the structure...
International audienceThe objective of this work is to develop a finite element model for studying f...
A validated computational fluid-structure interaction method for simulating the complex interaction ...
An algorithm to simulate 3D fluid–structure interaction problems using the finite element technique ...
The interaction problem of incompressible fluid and incompressible elastic material in the so-called...
International audienceWe introduce a new numerical method to model the fluid-structure interaction b...
This thesis concerns finite element (FE) methods for solving fluid-structure interaction (FSI) probl...
An improved methodology for flow structure interaction problems involving large struc-tural deformat...
Finite element formulations for fluid-structure interaction assuming an inviscid fluid can be classi...
peer reviewedThe paper introduces a weighted residual-based approach for the numerical investigation...
This paper presents a hybrid finite-element/boundary-element method for fluid-structure-interaction ...
We present a combined finite-element/boundary-element method to simulate inflation processes, charac...
This work concerns the interaction of light membrane structures enclosing incompressible fluids. Lar...
This paper focuses on numerical techniques for inflatable structures where, typically, the structure...
International audienceThe objective of this work is to develop a finite element model for studying f...
A validated computational fluid-structure interaction method for simulating the complex interaction ...
An algorithm to simulate 3D fluid–structure interaction problems using the finite element technique ...
The interaction problem of incompressible fluid and incompressible elastic material in the so-called...
International audienceWe introduce a new numerical method to model the fluid-structure interaction b...
This thesis concerns finite element (FE) methods for solving fluid-structure interaction (FSI) probl...
An improved methodology for flow structure interaction problems involving large struc-tural deformat...
Finite element formulations for fluid-structure interaction assuming an inviscid fluid can be classi...
peer reviewedThe paper introduces a weighted residual-based approach for the numerical investigation...