In this review article, the focus is on partitioned simulation techniques for strongly coupled
fluid-structure interaction problems, especially on techniques which use at least one of the …

We provide an overview of the finite element methods we developed for fluid dynamics
problems. We focus on stabilized formulations and moving boundaries and interfaces. The …

In this paper, we develop a geometrically flexible technique for computational fluid–structure
interaction (FSI). The motivating application is the simulation of tri-leaflet bioprosthetic heart …

Three-dimensional fluid–structure interaction (FSI) involving large deformations of flexible
bodies is common in biological systems, but accurate and efficient numerical approaches for …

We propose a framework that combines variational immersed-boundary and arbitrary
Lagrangian–Eulerian methods for fluid–structure interaction (FSI) simulation of a …

We present a fully-coupled monolithic formulation of the fluid-structure interaction of an
incompressible fluid on a moving domain with a nonlinear hyperelastic solid. The arbitrary …

In this two‐part paper, we present a collection of numerical methods combined into a single
framework, which has the potential for a successful application to wind turbine rotor …

This paper builds on a recently developed immersogeometric fluid–structure interaction
(FSI) methodology for bioprosthetic heart valve (BHV) modeling and simulation. It enhances …

A fixed-point fluid–structure interaction (FSI) solver with dynamic relaxation is revisited. New
developments and insights gained in recent years motivated us to present an FSI solver with …

The immersed boundary method is a methodology for dealing with boundary conditions at
fluid–fluid and fluid–solid interfaces. The immersed boundary method has been attracting …