Modal density of rectangular structures in a wide frequency range

A novel approach to investigate the modal density of a rectangular structure in a wide frequency range is presented. First, the modal density is derived, in the whole frequency range of interest, on the basis of sound transmission through the infinite counterpart of the structure; then, it is correc...

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Veröffentlicht in:	Journal of sound and vibration 2018-04, Vol.419, p.380-389
Hauptverfasser:	Parrinello, A., Ghiringhelli, G.L.
Format:	Artikel
Sprache:	eng
Schlagworte:	Acoustic properties Acoustics Density Finite element method Formulations Mathematical analysis Modal density Resonant frequencies Sound transmission Statistical analysis Statistical Energy Analysis Transfer Matrix Method Vibration analysis Vibration tests Volume
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container_title	Journal of sound and vibration
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creator	Parrinello, A. Ghiringhelli, G.L.
description	A novel approach to investigate the modal density of a rectangular structure in a wide frequency range is presented. First, the modal density is derived, in the whole frequency range of interest, on the basis of sound transmission through the infinite counterpart of the structure; then, it is corrected by means of the low-frequency modal behavior of the structure, taking into account actual size and boundary conditions. A statistical analysis reveals the connection between the modal density of the structure and the transmission of sound through its thickness. A transfer matrix approach is used to compute the required acoustic parameters, making it possible to deal with structures having arbitrary stratifications of different layers. A finite element method is applied on coarse grids to derive the first few eigenfrequencies required to correct the modal density. Both the transfer matrix approach and the coarse grids involved in the finite element analysis grant high efficiency. Comparison with alternative formulations demonstrates the effectiveness of the proposed methodology.
doi_str_mv	10.1016/j.jsv.2018.01.030
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First, the modal density is derived, in the whole frequency range of interest, on the basis of sound transmission through the infinite counterpart of the structure; then, it is corrected by means of the low-frequency modal behavior of the structure, taking into account actual size and boundary conditions. A statistical analysis reveals the connection between the modal density of the structure and the transmission of sound through its thickness. A transfer matrix approach is used to compute the required acoustic parameters, making it possible to deal with structures having arbitrary stratifications of different layers. A finite element method is applied on coarse grids to derive the first few eigenfrequencies required to correct the modal density. Both the transfer matrix approach and the coarse grids involved in the finite element analysis grant high efficiency. 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subjects	Acoustic properties Acoustics Density Finite element method Formulations Mathematical analysis Modal density Resonant frequencies Sound transmission Statistical analysis Statistical Energy Analysis Transfer Matrix Method Vibration analysis Vibration tests Volume
title	Modal density of rectangular structures in a wide frequency range
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