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 concrete industry is facing new digital shaping processes that still have to be optimized
and that require cement-based materials, for which fresh properties requirements are yet to …

Product quality and processing of additively manufactured concrete components strongly
depend on the flow processes during material extrusion. To control layer deformations and …

The rheological behavior of cement slurries is important in trying to prevent and eliminate
gas-migration related problems in oil well applications. In this paper, we review the …

Consequences of submarine landslides include both their direct impact on offshore
infrastructure, such as subsea electric cables and gas/oil pipelines, and their indirect impact …

First, we define in this paper two benchmark flows readily usable by anyone calibrating a
numerical tool for concrete flow prediction. Such benchmark flows shall allow anyone to …

In the present investigation we apply a pure Lagrangian finite element method to simulate
nonlinear water waves due to landslides, of interest to ocean, coastal as well as to dam …

This paper presents a Lagrangian formulation of elastoviscoplasticity, on the basis of the
particle finite element method, for progressive failure analysis of sensitive clays. The …

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 …

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 …