论文信息 - Noise transmission and attenuation by stiffened panels

Noise transmission and attenuation by stiffened panels

An analytical study of noise transmission into semi-cylindrical and rectangular acoustic enclosures due to turbulent boundary layer pressure and propeller noise (prop-fan) is presented. The structural noise transmission models include a single panel, discretely stiffened elastic panel and stiffened viscoelastic sandwich panel. Response characteristics of the stiffened panels are evaluated using a transfer matrix procedure. The interior noise field is determined by a Galerkin-like method. The effect on interior noise due to aerodynamic surface flow, cavity back-up pressure, pressurization, mass, stiffness, and damping addition to the structure is investigated. It is shown that stiffened viscoelastic sandwich panels, while providing the same stiffening benefits as an equivalent elastic panel, could significantly reduce vibration levels and subsequently give similar benefits for interior noise control.

R. Vaicaitis | M. Slazak | M. T. Chang

[1] Rimas Vaicaitis,et al. Investigation of Interior Noise in a Twin-Engine Light Aircraft , 1978 .

[2] Y. K. Lin,et al. Dynamics of Beam-Type Periodic Structures , 1969 .

[3] Leslie Robert Koval,et al. Effect of air flow, panel curvature, and internal pressurization on field‐incidence transmission loss , 1976 .

[4] Y. K. Lin,et al. A BRIEF SURVEY OF TRANSFER MATRIX TECHNIQUES WITH SPECIAL REFERENCE TO THE ANALYSIS OF AIRCRAFT PANELS , 1969 .

[5] Leslie Robert Koval,et al. On sound transmission into a thin cylindrical shell under “flight conditions” , 1976 .

[6] Earl H. Dowell,et al. Master Plan for Prediction of Vehicle Interior Noise , 1979 .

[7] R. Vaicaitis,et al. Noise transmission - Turboprop problem , 1979 .

[8] R. Vaicaitis,et al. Noise transmission through stiffened panels , 1980 .