Journal of Computational Physics
Simulation of a flapping flexible filament in a flowing soap film by the immersed boundary method
Journal of Computational Physics
A DLM/FD method for fluid/flexible-body interactions
Journal of Computational Physics
Journal of Computational Physics
A fluid-structure interaction method with solid-rigid contact for heart valve dynamics
Journal of Computational Physics
Benchmark problems for incompressible fluid flows with structural interactions
Computers and Structures
Validation of a fluid-structure interaction model for a bileaflet mechanical heart valve
International Journal of Computational Fluid Dynamics
On computational issues of immersed finite element methods
Journal of Computational Physics
Computation of unsteady flows with moving boundaries using body fitted curvilinear moving grids
Computers and Structures
Performance of partitioned procedures in fluid-structure interaction
Computers and Structures
SIAM Journal on Scientific Computing
Fluid-structure coupling using lattice-Boltzmann and fixed-grid FEM
Finite Elements in Analysis and Design
Deforming composite grids for solving fluid structure problems
Journal of Computational Physics
Modeling fluid-structure interaction by the particle finite element method in OpenSees
Computers and Structures
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A perspective is given on fictitious domain methods for deformable bodies that exert large motions induced by unsteady flow. In these methods an Eulerian and Lagrangian formulation are employed for the fluid and solid, respectively, and both bodies are coupled using a Lagrange multiplier. The use of a multiplier allows the solid not to be an integral part of the fluid mesh. Three variations of the fictitious domain method that have been published before, are compared to an ALE method in two numerical experiments and in conclusion the advantages, disadvantages and differences for the different approaches are discussed.