Interactive Finite Element model of needle insertion and laceration

The purpose of this study is to investigate the role of stress waves and material properties in dynamic fragmentation processes in brittle plates subject to biaxial loading at a

Octree (3D) and quadtree (2D) representations of computational geometry are particularly well suited to modelling domains that are defined implicitly, such as those generated by

Combining space and time eXtended finite element methods gives a unified space–time dis- cretization and accurate results when space and/or time discontinuities have to be

5 shows the mechanical deformations of the actuation unit when a dc voltage is applied. One point of investigation was the nonlinear dynamic response of the micropump. The pump

The discrete-time model is deduced based on real-time Finite Element Method and then a novel observer based control method (the observer is built by Finite Element Model) is proposed

This paper presents a novel CutFEM-LaTIn algorithm to solve multiple unilateral contact problems over geometries that do not conform with the finite element mesh.. We show that

Barrett and S¨ uli have introduced, and proved the existence of global-in-time weak solutions for d = 2 and 3 to, microscopic-macroscopic dumbbell models of dilute polymers

In this chapter, we demonstrate a general formulation of the FEM allowing to calculate the diffraction efficiencies from the electromagnetic field diffracted by arbitrarily