Remarks on wave propagation in an acoustic metamaterial modeled as a relaxed micromorphic continuum-Reference-Cited by-同舟云学术

Remarks on wave propagation in an acoustic metamaterial modeled as a relaxed micromorphic continuum

Published:2023-05 Issue:1 Volume:23 Page:
ISSN:1617-7061
Container-title:PAMM
language:en
Short-container-title:Proc Appl Math and Mech

Author:

Voss Jendrik¹²,Rizzi Gianluca¹,Demetriou Plastiras¹,Neff Patrizio²,Madeo Angela¹

Affiliation:

1. Institute for Structural Mechanics and Dynamics Technical University Dortmund August-Schmidt-Str. 8 44227 Dortmund Germany

2. Chair for Nonlinear Analysis and Modeling University of Duisburg-Essen Thea-Leymann-Str. 9 45127 Essen Germany

Abstract

AbstractIn order to describe elastic waves propagation in metamaterials, i.e. solids with heterogeneities or microstructure, it is necessary to consider non‐local or higher‐order models. The relaxed micromorphic model (RMM) proposed here can describe these effects as a continuous material with enriched kinematics. We present a new unit cell giving rise to a metamaterial for acoustic application. The microstructure is engineered to show a band‐gap in the low acoustic regime (600‐2000 Hz) for which waves cannot propagate through the material. We concentrate on the size effects to make full advantage of the particularly beneficial structure that the model provides. The RMM material parameters are fitted using a new algorithm relying on cutoffs and asymptotes (obtained via a Bloch‐Floquet analysis). In particular, by enhancing the kinetic energy of the model with a new inertia term, we enable decreasing curves (modes with negative group velocity).

Publisher

Wiley

Subject

Electrical and Electronic Engineering,Atomic and Molecular Physics, and Optics

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/pamm.202200182

Reference14 articles.

1. A. Aivaliotis A. Daouadji G. Barbagallo D. Tallarico P. Neff and A. Madeo. “Microstructure-related Stoneley waves and their effect on the scattering properties of a 2D Cauchy/relaxed-micromorphic interface”. Wave Motion 90 (2019). Pp. 99–120.

2. A. Aivaliotis D. Tallarico M.-V. d'Agostino A. Daouadji P. Neff and A. Madeo. “Frequency-and angle-dependent scattering of a finite-sized meta-structure via the relaxed micromorphic model”. Archive of Applied Mechanics 90.5 (2020). Pp. 1073–1096.

3. O. R. Bilal D. Ballagi and C. Daraio. “Architected lattices for simultaneous broadband attenuation of airborne sound and mechanical vibrations in all directions”. Physical Review Applied 10.5 (2018).

4. P. Celli B. Yousefzadeh C. Daraio and S. Gonella. “Bandgap widening by disorder in rainbow metamaterials”. Applied Physics Letters 114.9 (2019).

5. M. V. d'Agostino G. Barbagallo I.-D. Ghiba B. Eidel P. Neff and A. Madeo. “Effective description of anisotropic wave dispersion in mechanical band-gap metamaterials via the relaxed micromorphic model”. Journal of Elasticity 139.2 (2020). Pp. 299–329.