An optimal principle in fluid–structure interaction

Hamilton's principle is extended so as to be able to model external #ow}structure interaction. This is accomplished by using Reynold's Transport theorem. In this form, Hamilton's principle is hybrid in the sense that it has an analytical part as well as a part that depends on experimentally derived

## Abstract The numerical solution of fluid–structure interactions with the customary subiteration method incurs numerous deficiencies. We propose a novel solution method based on the conjugation of subiteration with a Newton–Krylov method, and demonstrate its superiority and beneficial characteris

In this paper an incompressible Smoothed Particle Hydrodynamics (SPH) method is proposed for simulation of fluid-structure interaction problems, deploying the pressure Poisson equation to satisfy incompressibility constraints. Viscous fluid flow past rigid and hypoelastic solid surfaces is studied.

## Abstract The aim of this issue was to bring together computational studies in a variety of research areas, where biological fluids interact with tissue. This resulted in a selection of papers on blood/vessel, blood/valve, air/lung and cell/platelet/blood interaction. Although convergence, robust