Sound transmission paths through a statistical energy analysis model of mechanically linked aircraft double-walls
Autor: | Andrew Wareing, Raef Cherif, Noureddine Atalla |
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Rok vydání: | 2021 |
Předmět: |
Coupling loss
Materials science Acoustics and Ultrasonics Sound transmission class Mechanical Engineering Acoustics Public Health Environmental and Occupational Health Aerospace Engineering Building and Construction Sandwich panel Airborne transmission Industrial and Manufacturing Engineering Noise Vibration isolation Transmission (telecommunications) Automotive Engineering Statistical energy analysis |
Zdroj: | Noise Control Engineering Journal. 69:411-421 |
ISSN: | 0736-2501 |
DOI: | 10.3397/1/376938 |
Popis: | Sound transmission loss (TL) through mechanically linked aircraft double-walls is studied with a statistical energy analysis method. An overview of the method is given with details on acoustic and structural transfer path analysis. The studied structure is composed of a thick composite sandwich panel representative of a skin panel, lined with an acoustic insulation layer (glass wool), and structurally connected via vibration isolators to a thin composite sandwich lining panel representative of a trim panel. Two types of vibration isolators are considered: a soft and rigid mechanical link. Various experimental methods were used to assess the accuracy of this model. This study shows the robustness of the simple four-pole modeling of isolators, which depends mainly on the importance of correctly determining the experimental dynamic stiffness of typical aircraft vibration isolators. The prediction of the TL while acceptable was, however, found less satisfactory for the soft configuration. This is traced to the uncertainties on the used coupling loss factor. Finally, a transfer path analysis is performed to identify the contribution of each transmission path in the entire frequency range of interest. Results show that non-resonant airborne transmission dominates in low frequencies, the airborne radiation is significant in the critical frequency region of the panels, while the structure-borne radiation increases the noise transmitted in the mid- and high-frequency ranges. |
Databáze: | OpenAIRE |
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