Nature has always represented a fundamental source of inspiration to solve mankind's scientific challenges and engineering tasks. For instance, it has been shown that a hierarchical organization over multiple length scales allows enhanced quasi-static mechanical properties, while the relative orientation of adjacent chiral centers strongly affects the physical properties of a polymer, and internal heterogeneous architectures may result in shape changing systems, to cite a few examples. In this paper, we discuss how bio-inspiration may be used to enhance the potential of phononic crystals and acoustic metamaterials.
How bio-inspiration enhances the potential of phononic crystals and metamaterials / Miniaci, M; Bergamini, A; Bosia, F; Gliozzi, As; Pugno, Nm. - ELETTRONICO. - (2021), pp. 269-271. (Intervento presentato al convegno FIFTEENTH INTERNATIONAL CONGRESS ON ARTIFICIAL MATERIALS FOR NOVEL WAVE PHENOMENA (METAMATERIALS) tenutosi a NYC, NY, USA nel 20-24 September 2021) [10.1109/Metamaterials52332.2021.9577112].
How bio-inspiration enhances the potential of phononic crystals and metamaterials
Bosia, F;Gliozzi, AS;
2021
Abstract
Nature has always represented a fundamental source of inspiration to solve mankind's scientific challenges and engineering tasks. For instance, it has been shown that a hierarchical organization over multiple length scales allows enhanced quasi-static mechanical properties, while the relative orientation of adjacent chiral centers strongly affects the physical properties of a polymer, and internal heterogeneous architectures may result in shape changing systems, to cite a few examples. In this paper, we discuss how bio-inspiration may be used to enhance the potential of phononic crystals and acoustic metamaterials.File | Dimensione | Formato | |
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https://hdl.handle.net/11583/2980638