Modeling of heterogeneous materials and media is a problem of fundamental importance to
a wide class of phenomena and systems, ranging from condensed matter physics, soft …

The particle finite element method (PFEM) is a powerful and robust numerical tool for the
simulation of multi-physics problems in evolving domains. The PFEM exploits the …

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

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 ocean engineering, the applications are usually related to a free surface which brings so
many interesting physical phenomena (eg water waves, impacts, splashing jets, etc.). To …

It has been 25 years since Sulsky and her coworkers developed the first version of the
material point method (MPM): a quasi particle method to solve continuum mechanics …

We present some advances in the formulation of the particle finite element method (PFEM)
for solving complex fluid–structure interaction problems with free surface waves. In …

We present some developments in the particle finite element method (PFEM) for analysis of
complex coupled problems in mechanics involving fluid–soil–structure interaction (FSSI) …

This study proposes an efficient combination of the Discrete Element Method (DEM) and the
Finite Element Method (FEM) to study the tractive performance of a rubber tire in interaction …

Computational modeling in geotechnical engineering frequently needs sophisticated
constitutive models to describe prismatic behavior of geomaterials subjected to complex …