A Preliminary Investigation of an Active Membrane-type Acoustic Metamaterial

Abstract: One of the most promising features of membrane-type acoustic metamaterials (MAM) is their anti-resonance at low frequencies, which typically exhibits sound transmission loss values that can significantly exceed the corresponding mass-law values. The bandwidth of this anti-resonance, however, is usually very small, which limits the applicability of MAM in practical noise control problems. In previous research it has been shown that different types of actuators (e.g. magnets, electrodes, or pressurized air) can… Show more

“…Different types of metamaterials can offer a solution to this problem. Resonance absorbers like membrane absorbers [15][16][17] or spring-mass systems [18][19][20] have been proposed in the context of vibration mitigation in the low-frequency range. These types of absorbers attain good attenuation performances but their effect is limited to a narrow frequency band if not coupled with other resonators or additional absorbing materials.…”

Design and experimental validation of a finite-size labyrinthine metamaterial for vibro-acoustics: enabling upscaling towards large-scale structures

“…Different types of metamaterials can offer a solution to this problem. Resonance absorbers like membrane absorbers [15][16][17] or spring-mass systems [18][19][20] have been proposed in the context of vibration mitigation in the low-frequency range. These types of absorbers attain good attenuation performances but their effect is limited to a narrow frequency band if not coupled with other resonators or additional absorbing materials.…”

Design and experimental validation of a finite-size labyrinthine metamaterial for vibro-acoustics: enabling upscaling towards large-scale structures