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- Title
Vibro-Acoustic Energy Transmission Analysis of the Acoustic Cavity with Multiple Partial Partitions.
- Authors
Zhang, Yufei; Du, Jingtao; Liu, Yang
- Abstract
The general dynamic characteristics of the acoustic cavity with multiple partial partitions are presented in this thesis. A theoretical model has been developed for predictions, and several configurations are analyzed. To describe the apertures on the interface of subcavities, the virtual air panel assumption is introduced into the improved Fourier series system. The governing equations of the coupling system are derived by using the energy principle. The results obtained with the proposed model are firstly compared with the numerical calculations based on the finite element method (FEM). Subsequently, a configuration made up from a rigid cavity partitioned by a partial steel panel has been specifically built, and the forced responses of the coupling system have been measured for comparison and model validation. The present results are excellent over most of the studied frequency range. Furthermore, the visualizations of the interior sound intensity field of the acoustic cavity with three partial partitions under different frequencies are researched to illustrate the energy transmission paths and vibro-acoustic coupling mechanism of the complicated system. The obtained results are believed to be helpful in the optimal design of the vibro-acoustic coupling system with optimal sound insulation capacity.
- Subjects
SOUNDPROOFING; FINITE element method; ACOUSTIC field; TRANSMISSION of sound; ACOUSTIC intensity; NUMERICAL calculations
- Publication
Symmetry (20738994), 2021, Vol 13, Issue 12, p2257
- ISSN
2073-8994
- Publication type
Article
- DOI
10.3390/sym13122257