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- Title
FINITE ELEMENT–BOUNDARY ELEMENT BASED VIBROACOUSTIC MODEL FOR NONHOMOGENEOUS TURBULENT BOUNDARY LAYER EXCITED COMPOSITE PANELS INVOLVING THE CHOLESKY DECOMPOSITION.
- Authors
Adhikary, B. R.; Sahu, A.; Bhattacharya, P.
- Abstract
An original numerical framework is developed in the present research work in order to estimate the free field sound radiation from baffled structural panels subjected to nonhomogeneous turbulent boundary layer flow-induced excitation. A sequence of semi-analytical methods is used to estimate the nonhomogeneous turbulent boundary layer wall pressure spectrum, which is decomposed using the Cholesky technique to obtain the random wall pressure in the frequency domain. Structural panels are modeled using the finite element technique, and a coupled finite element-boundary element modeling technique is developed to estimate the sound power level radiated into the free field. Results are obtained for laminated composite structural panels with various fiber orientations.
- Subjects
STRUCTURAL panels; TURBULENT boundary layer; ACOUSTIC radiation; FIBER orientation; FINITE element method; LAMINATED materials
- Publication
Journal of Applied Mechanics & Technical Physics, 2023, Vol 64, Issue 6, p1128
- ISSN
0021-8944
- Publication type
Article
- DOI
10.1134/S002189442306024X