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 …

This paper aims at providing a state-of-the-art review on the applications of particle methods
in hydrodynamics-related problems in ocean and coastal engineering. The problems are …

An enhanced fully-Lagrangian meshfree computational method is developed for simulating
incompressible fluid–elastic structure interactions. The developed method corresponds to a …

The paper presents a concise review on latest advances related to development of entirely
Lagrangian meshfree computational methods for hydroelastic fluid-structure interactions …

Abstract A SPH (Smoothed Particle Hydrodynamics)-based multi-resolution fully Lagrangian
meshfree hydroelastic FSI (Fluid-Structure Interaction) solver is developed for accurate and …

The objective of this research work has been to conduct experimental measurements on a
dam break flow over a horizontal dry bed in order to provide a detailed insight, with …

This paper presents the development of a numerical model for violent hydrodynamics of free-
surface flows interacting with flexible structures using the meshless smoothed particle …

The paper presents a multi-resolution MPS (Moving Particle Semi-implicit)-based FSI (Fluid-
Structure Interaction) solver for efficient and accurate simulations of incompressible fluid …

A simple and accurate coupled peridynamics (PD) and smoothed particle hydrodynamics
(SPH) strategy based on virtual particles and repulsive forces is proposed to simulate fluid …