Modeling Finite-Size Metamaterials with Relaxed Micromorphic Theory

\ Figure 1: Geometry of the unit cell. Left: details of one unit cell (rotated by 45 degrees) showing the tetragonal symmetry. For a = 20mm as the size of the unit size we consider later, both the bars and holes have a thickness of 0.4mm each. Right: A 3x3 section of the metamaterial made up of this unit cell (red dashed square).

\ for the classical Cauchy model, and

\ for the relaxed micromorphic model, where we set

\ The Neumann boundary condition for the classical Cauchy model are

2.1 Tetragonal Symmetry / Shape of elastic tensors (in Voigt notation)

\ \ \

:::info This paper is available on arxiv under CC BY 4.0 DEED license.

:::

[7] We write “m” for “micro” and “M” for “macro” for the corresponding elastic parameters to shorten the following expressions.

:::info Authors:

(1) Jendrik Voss, Institute for Structural Mechanics and Dynamics, Technical University Dortmund and a Corresponding Author (jendrik.voss@tu-dortmund.de);

(2) Gianluca Rizzi, Institute for Structural Mechanics and Dynamics, Technical University Dortmund;

(3) Patrizio Neff, Chair for Nonlinear Analysis and Modeling, Faculty of Mathematics, University of Duisburg-Essen;

(4) Angela Madeo, Institute for Structural Mechanics and Dynamics, Technical University Dortmund.

:::

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2 Relaxed micromorphic modelling of finite-size metamaterials

2.1 Tetragonal Symmetry / Shape of elastic tensors (in Voigt notation)

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