AI Chat AI Image Generator AI Video Text to Speech

The eXtreme Mesh deformation approach (X-MESH) for the Stefan phase-change model

11/07/2021

∙

by Nicolas Moes, et al.

∙

∙

The eXtreme MESH deformation approach is a new method to follow sharp interfaces without remeshing and without changing the mesh topology. Moreover, the interface may change topology (nucleation, coalescence, splitting). The key idea is to allow elements to reach zero measure. This permits interface relaying, annihilation and seeding in a time continuous manner. The paper targets the Stefan phase-change model. Several examples demonstrate the capability of the approach.

Nicolas Moes
5 publications
Jean-François Remacle
22 publications
Jonathan Lambrechts
4 publications
Benoit Le
2 publications

page 2

page 5

page 10

page 12

page 13

research

∙ 07/09/2021

On Mesh Deformation Techniques for Topology Optimization of Fluid-Structure Interaction Problems

Fluid-structure interactions are a widespread phenomenon in nature. Alth...

0 Mohamed Abdelhamid, et al. ∙

research

∙ 03/13/2016

Modelling Developable Ribbons Using Ruling Bending Coordinates

This paper presents a new method for modelling the dynamic behaviour of ...

0 Zherong Pan, et al. ∙

research

∙ 12/22/2021

An Interface Preserving Moving Mesh in Multiple Space Dimensions

An interface preserving moving mesh algorithm in two or higher dimension...

0 Maria Alkämper, et al. ∙

research

∙ 02/08/2023

X-Mesh: A new approach for the simulation of two-phase flow with sharp interface

Accurate modeling of moving boundaries and interfaces is a difficulty pr...

0 Antoine Quiriny, et al. ∙

research

∙ 07/14/2020

Topology-Change-Aware Volumetric Fusion for Dynamic Scene Reconstruction

Topology change is a challenging problem for 4D reconstruction of dynami...

0 Chao Li, et al. ∙

research

∙ 03/22/2016

A Report on Shape Deformation with a Stretching and Bending Energy

In this report we describe a mesh editing system that we implemented tha...

0 Hui Zhao, et al. ∙

research

∙ 03/11/2022

Mechanical Characterization of Compliant Cellular Robots. Part II: Active Strain

Modular Active Cell Robots (MACROs) is a design approach in which a larg...

0 Gaurav Singh, et al. ∙