The objective of this work is to describe the design and implementation of a framework for
building multi-disciplinary finite element programs. The main goals are generality …

Fluid–structure interaction simulations can be performed in a partitioned way, by coupling a
flow solver with a structural solver. However, Gauss–Seidel iterations between these solvers …

The computational challenges posed by fluid–structure interaction (FSI) modeling of
parachutes include the lightness of the parachute canopy compared to the air masses …

This is an extensive overview of the core and special space–time and Arbitrary Lagrangian–
Eulerian (ALE) techniques developed by the authors' research teams for patient-specific …

Current work presents a monolithic method for the solution of fluid–structure interaction
problems involving flexible structures and free-surface flows. The technique presented is …

We develop efficient numerical methods for fractional order PDEs, and employ them to
investigate viscoelastic constitutive laws for arterial wall mechanics. Recent simulations …

The current study is mainly focused on nonlinear sloshing analysis of rectangular liquid
storage tanks. The main response quantity of interest is free surface sloshing height. There …

Stable partitioned algorithms for fluid–structure interaction (FSI) problems are developed
and analyzed in this two-part paper. Part I describes an algorithm for incompressible flow …

We present the special arterial fluid mechanics techniques we have developed for patient-
specific computer modeling of blood flow in cerebral arteries with aneurysm and stent …

In this work a fully partitioned Lagrangian framework for the solution of fluid–structure
interaction (FSI) problems involving free surfaces, large solid displacements and …