Background Biomechanics introduces numerous technologies to support clinical practice in
ophthalmology, with the goal of improving surgical outcomes and to develop new advanced …

Abstract 3D Concrete Printing (3DCP) is a rapidly evolving technology that allows for the
efficient and accurate construction of complex concrete objects. In this paper, a numerical …

There is increasing interest in the material point method (MPM) as a means of modelling
solid mechanics problems in which very large deformations occur, eg in the study of …

In this work, a fully explicit partitioned method for the simulation of Fluid Structure Interaction
(FSI) problems is presented. The fluid domain is modelled with an explicit Particle Finite …

In the present work, an explicit finite element approach to the solution of the Lagrangian
formulation of the Navier-Stokes equations for weakly compressible fluids or fluid-like …

The numerical simulation of airbags is receiving an increasing attention for the remarkable
advantages in terms of cost, efficiency, flexibility and amount of data that can be extracted …

The dynamics of fluid flows with free surfaces and interacting with highly deformable
structures is a complex problem, attracting considerable attention. The Particle Finite …

In this work, we investigate an original strategy in order to derive a statistical modeling of the
interface in gas–liquid two-phase flows through geometrical variables. The contribution is …

A fast runtime mesh smoothing algorithm for explicit Lagrangian simulations of 3D weakly
compressible viscous fluid flows, implemented in conjunction with the particle finite element …

This paper is dedicated to the design of an artifact-free and geometrically accurate low-
diffusive interface capturing method for pure advection problems with extension to the …