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Main Authors: Průša, Vít, Rodriguez, Casey, Trnka, Ladislav, Vejvoda, Martin
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2502.10045
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author Průša, Vít
Rodriguez, Casey
Trnka, Ladislav
Vejvoda, Martin
author_facet Průša, Vít
Rodriguez, Casey
Trnka, Ladislav
Vejvoda, Martin
contents We propose a thermodynamically based approach for constructing effective rate-type constitutive relations describing finite deformations of metamaterials. The effective constitutive relations are formulated as \emph{second-order} in time rate-type Eulerian constitutive relations between only the Cauchy stress tensor, the Hencky strain tensor and objective time derivatives thereof. In particular, there is no need to introduce additional quantities or concepts such as ``micro-level deformation'',``micromorphic continua'', ``enriched continua'', or elastic solids with frequency dependent material properties. The linearisation of the proposed fully nonlinear (finite deformations) constitutive relations leads, in Fourier space, to the same constitutive relations as those commonly used in theories based on the concepts of frequency dependent density and/or stiffness. From this perspective the proposed constitutive relations reproduce the behaviour predicted by the frequency dependent density and/or stiffness models, but yet they work with constant -- that is motion independent -- material properties. Finally, we argue that the proposed fully nonlinear (finite deformations) second-order in time rate-type constitutive relations do not fall into traditional classes of models for elastic solids (hyperelastic solids/Green elastic solids, first-order in time hypoelastic solids), and that the proposed constitutive relations embody a \emph{new} class of constitutive relations characterising elastic solids.
format Preprint
id arxiv_https___arxiv_org_abs_2502_10045
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Modeling metamaterials by second-order rate-type constitutive relations between only the macroscopic stress and strain
Průša, Vít
Rodriguez, Casey
Trnka, Ladislav
Vejvoda, Martin
Materials Science
74B20, 74Q15
We propose a thermodynamically based approach for constructing effective rate-type constitutive relations describing finite deformations of metamaterials. The effective constitutive relations are formulated as \emph{second-order} in time rate-type Eulerian constitutive relations between only the Cauchy stress tensor, the Hencky strain tensor and objective time derivatives thereof. In particular, there is no need to introduce additional quantities or concepts such as ``micro-level deformation'',``micromorphic continua'', ``enriched continua'', or elastic solids with frequency dependent material properties. The linearisation of the proposed fully nonlinear (finite deformations) constitutive relations leads, in Fourier space, to the same constitutive relations as those commonly used in theories based on the concepts of frequency dependent density and/or stiffness. From this perspective the proposed constitutive relations reproduce the behaviour predicted by the frequency dependent density and/or stiffness models, but yet they work with constant -- that is motion independent -- material properties. Finally, we argue that the proposed fully nonlinear (finite deformations) second-order in time rate-type constitutive relations do not fall into traditional classes of models for elastic solids (hyperelastic solids/Green elastic solids, first-order in time hypoelastic solids), and that the proposed constitutive relations embody a \emph{new} class of constitutive relations characterising elastic solids.
title Modeling metamaterials by second-order rate-type constitutive relations between only the macroscopic stress and strain
topic Materials Science
74B20, 74Q15
url https://arxiv.org/abs/2502.10045