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Main Authors: Ortiz-Ocampo, José, Guarín-Zapata, Nicolás
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2501.08954
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author Ortiz-Ocampo, José
Guarín-Zapata, Nicolás
author_facet Ortiz-Ocampo, José
Guarín-Zapata, Nicolás
contents The study of metamaterials and architected materials has intensified interest in continuum mechanics models that capture size-dependent microstructure interactions. Among these, Consistent Couple-Stress Theory (C-CST) incorporates microscale mechanical interactions by introducing higher-order derivatives in the strain energy. While previous studies have relied on convolutional principles or inverse Laplace transforms to obtain time-dependent solutions, this work demonstrates that implicit time integration applied to a mixed finite element method with a Lagrange multiplier provides stable, direct time-domain solutions for dynamic C-CST modeling. The proposed finite element scheme is tested through the Method of Manufactured Solutions (MMS) for static cases and dynamic simulations of simple mechanical scenarios. Our computational experiments revealed energy dissipation, emphasizing the importance of exploring symplectic integrators in future work to impose energy conservation. Additionally, further research is required to verify temporal stability through time-domain MMS and to investigate complex mechanical scenarios, including those previously restrictive, challenging to simulate, or unfeasible with existing dynamic methods. This work lays the groundwork for studying size-dependent material behavior and provides the foundation for advanced applications in material design and wave propagation.
format Preprint
id arxiv_https___arxiv_org_abs_2501_08954
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Implicit Time-Marching for Lagrange Multiplier Formulation for Couple Stress Elastodynamics
Ortiz-Ocampo, José
Guarín-Zapata, Nicolás
Numerical Analysis
Materials Science
74S05 (Primary), 74J05 (Secondary)
I.6.3; J.2
The study of metamaterials and architected materials has intensified interest in continuum mechanics models that capture size-dependent microstructure interactions. Among these, Consistent Couple-Stress Theory (C-CST) incorporates microscale mechanical interactions by introducing higher-order derivatives in the strain energy. While previous studies have relied on convolutional principles or inverse Laplace transforms to obtain time-dependent solutions, this work demonstrates that implicit time integration applied to a mixed finite element method with a Lagrange multiplier provides stable, direct time-domain solutions for dynamic C-CST modeling. The proposed finite element scheme is tested through the Method of Manufactured Solutions (MMS) for static cases and dynamic simulations of simple mechanical scenarios. Our computational experiments revealed energy dissipation, emphasizing the importance of exploring symplectic integrators in future work to impose energy conservation. Additionally, further research is required to verify temporal stability through time-domain MMS and to investigate complex mechanical scenarios, including those previously restrictive, challenging to simulate, or unfeasible with existing dynamic methods. This work lays the groundwork for studying size-dependent material behavior and provides the foundation for advanced applications in material design and wave propagation.
title Implicit Time-Marching for Lagrange Multiplier Formulation for Couple Stress Elastodynamics
topic Numerical Analysis
Materials Science
74S05 (Primary), 74J05 (Secondary)
I.6.3; J.2
url https://arxiv.org/abs/2501.08954