Particle-based realistic simulation of fluid–solid interaction

## Abstract We present a new method for the simulation of melting and solidification in a __unified particle model__. Our technique uses the __Smoothed Particle Hydrodynamics__ (SPH) method for the simulation of liquids, deformable as well as rigid objects, which eliminates the need to define an in

We present particle dynamics simulations for the response of magnetorheological (MR) fluids upon application of a magnetic field. The particles motion is considered to be governed by magnetic, hydrodynamic, and repulsive interactions. Fluid-particle interactions are accounted for via Stokes' drag wh

## Abstract **Summary:** Phantom chain MC simulations have been performed for realistically sized systems of polymer chains filled with solid nanoparticles. The results of the simulations and simple theoretical considerations are used to rationalize a number of parameters relevant to the characteri

This paper is concerned with various variational formulations for the fluid -solid interaction problems. The basic approach here is a coupling of field and boundary integral equation methods. In particular, Gårding's inequalities are established in appropriate Sobolev spaces for all the formulations