A numerical study of the acoustic performance of a metamaterial cylindrical shell based on the water-structure-air coupling relationship
Journal of Vibration and Control
Published online on August 29, 2025
Abstract
Journal of Vibration and Control, Ahead of Print.
Cylindrical shell structures in deep-sea equipment experience forced vibrations when subjected to external excitations. Local resonance metamaterials (LRMs) are capable of absorbing vibration energy, thereby reducing the transmission of acoustic power. ...
Cylindrical shell structures in deep-sea equipment experience forced vibrations when subjected to external excitations. Local resonance metamaterials (LRMs) are capable of absorbing vibration energy, thereby reducing the transmission of acoustic power. ...