Your search keyword '"Casadei, Filippo"' showing total 2 results

1. Harnessing fluid-structure interactions to design self-regulating acoustic metamaterials.

Author

Casadei, Filippo and Bertoldi, Katia

Subjects

*PHONONIC crystals, *PHONONS, *METAMATERIALS, *AIRPLANE design, *AEROFOILS, *PHOTONIC band gap structures

Abstract

The design of phononic crystals and acoustic metamaterials with tunable and adaptive wave properties remains one of the outstanding challenges for the development of next generation acoustic devices. We report on the numerical and experimental demonstration of a locally resonant acoustic metamaterial with dispersion characteristics, which autonomously adapt in response to changes of an incident aerodynamic flow. The metamaterial consists of a slender beam featuring a periodic array or airfoil-shaped masses supported by a linear and torsional springs. The resonance characteristics of the airfoils lead to strong attenuation at frequencies defined by the properties of the airfoils and the speed on the incident fluid. The proposed concept expands the ability of existing acoustic bandgap materials to autonomously adapt their dispersion properties through fluid-structure interactions, and has the potential to dramatically impact a variety of applications, such as robotics, civil infrastructures, and defense systems. [ABSTRACT FROM AUTHOR]

Published

2014

2. Piezoelectric resonator arrays for tunable acoustic waveguides and metamaterials.

Author

Casadei, Filippo, Delpero, Tommaso, Bergamini, Andrea, Ermanni, Paolo, and Ruzzene, Massimo

Subjects

*PHONONIC crystals, *METAMATERIALS, *WAVEGUIDES, *PIEZOELECTRIC transducers, *ATTENUATION (Physics)

Abstract

One of the outstanding challenges in phononic crystals and acoustic metamaterials development is the ability to tune their performance without requiring structural modifications. We report on the experimental demonstration of a tunable acoustic waveguide implemented within a two-dimensional phononic plate. The waveguide is equipped with a periodic array of piezoelectric transducers which are shunted through passive inductive circuits. The resonance characteristics of the shunts lead to strong attenuation and to negative group velocities at frequencies defined by the circuits' inductance. The proposed waveguide illustrates the concept of a controllable acoustic logic port or of an acoustic metamaterial with tunable dispersion characteristics. [ABSTRACT FROM AUTHOR]

Published

2012