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 …

Particle finite element method (PFEM) is an effective numerical tool for solving large-
deformation problems in geomechanics. By incorporating the node integration technique …

This study presents a new formulation of smoothed particle finite element method (SPFEM)
for dynamic problems in two-phase saturated porous media. A node integration method is …

Abstract The Smoothed Particle Finite Element Method (SPFEM) is a powerful numerical tool
for the modelling of large deformation problems in the field of geomechanics. However, the …

Smoothed particle finite element method has been gaining recognition as an appropriate
approach for large deformation problems in geotechnics. This paper presents formulations …

In this study, a new numerical scheme is developed for modelling large deformation
problems in geomechanics. The approach is based on employing the node based smoothed …

This paper presents a novel coupled formulation for fluid-structure interaction (FSI) problems
involving free-surface fluid flows, fracture phenomena, solid mutual contact and large …

In this study, a stabilized smoothed particle finite element method (SPFEM) for modeling
nonlinear, large deformation dynamic problems in geomechanics is presented. The …

A mixed u–p edge-based smoothed particle finite element formulation is proposed for
computational simulations of viscous flow. In order to improve the accuracy of the standard …

In this paper, a computational framework based on the Smoothed Particle Finite Element
Method is developed to study the coupled seepage-deformation process in unsaturated …