The interactions between incompressible fluid flows and immersed structures are nonlinear
multi-physics phenomena that have applications to a wide range of scientific and …

Fluid–structure interaction (FSI) problems commonly encountered in engineering and
biological applications involve geometrically complex flexible or rigid bodies undergoing …

In the emerging field of multi-physics simulations, we often face the challenge to establish
new connections between physical fields, to add additional aspects to existing models, or to …

Fluid–structure interaction (FSI) can be simulated in a monolithic way by solving the flow and
structural equations simultaneously and in a partitioned way with separate solvers for the …

Since the introduction of the concept of very large floating structure (VLFS), research in this
area has become increasingly intensive. VLFSs have the potential to serve various functions …

Partitioned simulations of fluid–structure interaction can be solved for the interface's position
with Newton–Raphson iterations but obtaining the exact Jacobian is impossible if the …

A 3D fluid–structure coupling between Smoothed Particle Hydrodynamics (SPH) and Finite
Element (FE) methods is proposed in this paper, with its application to complex tire …

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 …

The paper is concerned with an efficient partitioned coupling scheme developed for dynamic
fluid–structure interaction problems in turbulent flows predicted by eddy-resolving schemes …

In this paper, the advantages, state-of-the-art, and current challenges in the field of adaptive
composite marine propulsors and turbines are reviewed. Adaptive composites are used in …