On the Moreau–Jean scheme with the Frémond impact law: energy conservation and dissipation properties for elastodynamics with contact, impact and friction

Vincent Acary; Nicholas Collins-Craft

doi:10.46298/jtcam.13480

Vincent Acary ; Nicholas Collins-Craft - On the Moreau–Jean scheme with the Frémond impact law: energy conservation and dissipation properties for elastodynamics with contact, impact and friction

jtcam:13480 - Journal of Theoretical, Computational and Applied Mechanics, June 30, 2025 - https://doi.org/10.46298/jtcam.13480

On the Moreau–Jean scheme with the Frémond impact law: energy conservation and dissipation properties for elastodynamics with contact, impact and frictionArticle

Authors: Vincent Acary ¹; Nicholas Collins-Craft ¹

1 Modélisation, simulation et commande des systèmes dynamiques non lisses

The objective of this paper is to propose a time integration scheme for nonsmooth mechanical systems involving one-sided contact, impact and Coulomb friction, that respects the principles of discrete-time energy balance with positive dissipation. To obtain energetic consistency in the continuous time model when an impact occurs, we work with an impact law with friction inspired by the work of M. Frémond (Frémond, 1995, 2001, 2002, 2017) which ensures that dissipation is positive, i.e. that the Clausius–Duhem inequality is satisfied for the impulses and the velocity jumps. On this basis, we propose a time integration method based on the Moreau–Jean scheme (Jean and Moreau, 1987; Moreau, 1988) with a discrete version of the Frémond impact law, and show that this method has correct dissipation properties.

https://doi.org/10.46298/jtcam.13480

Source: HAL:hal-04230941v5

Published on: June 30, 2025

Accepted on: October 28, 2024

Submitted on: April 26, 2024

Keywords: contact dynamics,impact,computational contact mechanics,numerical time integration,energy conservation,dissipation properties,[MATH.MATH-NA]Mathematics [math]/Numerical Analysis [math.NA],[PHYS.MECA]Physics [physics]/Mechanics [physics]

Licence: Attribution 4.0 International (CC BY 4.0)

Funding:

Source : HAL

Landslide and avalanchE Mechanics with Multiphysical datA; Funder: European Commission; Code: 101064805

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Archived | swh:1:dir:14e4998f030a68392153e3d9a4ea7ffa8208781d;origin=https://github.com/nickcollins-craft/On-the-Moreau-Jean-scheme-with-the-Fremond-impact-law;visit=swh:1:snp:25a94ce3920f1e1035231c34fdfc87c934503cf7;anchor=swh:1:rev:dbe0189e869e006db6405156530e5547e3fcb59a

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Acary, V., & Collins-Craft, N. A. (2024). On the Moreau–Jean scheme with the Frémond impact law: energy conservation and dissipation properties for elastodynamics with contact, impact and friction — codes (Version 1.0.1, 1–). Inria. 10.5281/ZENODO.10953181

Vincent Acary, & Nicholas Anton Collins-Craft. (2025). Accompanying dataset for the paper "On the Moreau–Jean scheme with the Frémond impact law: energy conservation and dissipation properties for elastodynamics with contact, impact and friction" (1–) [Dataset]. Zenodo. 10.5281/ZENODO.15750400

Vincent Acary ; Nicholas Collins-Craft - On the Moreau–Jean scheme with the Frémond impact law: energy conservation and dissipation properties for elastodynamics with contact, impact and friction

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