Efficient positioning of absorbing material in complex systems by using the Patch Transfer Function method

Given the need to decrease energy consumption in the automobile industry, vehicle weight has become an important issue. Regarding acoustic comfort, the weight of noise reduction devices must be minimized inside vehicle compartments. Consequently, these devices, for example those using poro-elastic m...

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Bibliographic Details
Published in:Journal of sound and vibration 2012-06, Vol.331 (13), p.3130-3143
Main Authors: Totaro, N., Guyader, J.L.
Format: Article
Language:English
Subjects:
Absorbing
Absorption
Acoustics
Automobiles
Automotive engineering
Devices
Engineering Sciences
Exact sciences and technology
Fundamental areas of phenomenology (including applications)
Mathematical models
Mechanics
Noise reduction
Numerical analysis
Physics
Structural acoustics and vibration
Transfer functions
Vibrations
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Summary:Given the need to decrease energy consumption in the automobile industry, vehicle weight has become an important issue. Regarding acoustic comfort, the weight of noise reduction devices must be minimized inside vehicle compartments. Consequently, these devices, for example those using poro-elastic materials, must be designed carefully to maximize their influence on noise reduction. The present paper describes a method developed to obtain an efficient positioning of a given surface (or mass) of absorbing material characterized by its surface impedance. This technique is based on the Patch Transfer Function method used to couple complex vibro-acoustic sub-domains and which has been successfully applied in the European ViSPeR and Silence projects. First, a numerical analysis of the possibilities of this method is performed on a non-rectangular cavity with rigid walls after which an experimental validation of this numerical analysis is performed to evaluate the accuracy of the method under real conditions. ► We provide a tool to find efficient locations for noise reduction devices in vibro-acoustic systems. ► The technique provides an influence map of absorbing material in the system. ► An experimental validation is performed to show that the method is relevant under real conditions.
ISSN:0022-460X
1095-8568
DOI:10.1016/j.jsv.2012.02.016