Sound absorption and transmission through flexible micro-perforated panels backed by an air layer and a thin plate

Theoretical and experimental results are presented into the sound absorption and transmission properties of multi-layer structures made up of thin micro-perforated panels (ML-MPPs). The objective is to improve both the absorption and insulation performances of ML-MPPs through impedance boundary optimization. A fully coupled modal formulation is introduced that predicts the effect of the structural resonances onto the normal incidence absorption coefficient and transmission loss of ML-MPPs. This model is assessed against standing wave tube measurements and simulations based on impedance translation method for two double-layer MPP configurations of relevance in building acoustics and aeronautics. Optimal impedance relationships are proposed that ensure simultaneous maximization of both the absorption and the transmission loss under normal incidence. Exhaustive optimization of the double-layer MPPs is performed to assess the absorption and/or transmission performances with respect to the impedance criterion. It is investigated how the panel volumetric resonances modify the excess dissipation that can be achieved from non-modal optimization of ML-MPPs.

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“…a À s, calculated from Eqs. (14) and (15), represents the fraction of incident power dissipated in the ML-MPP.…”

Section: ! "mentioning

confidence: 99%

Enhancing sound absorption and transmission through flexible multi-layer micro-perforated structures

Bravo

Maury

Pinhède

2013

The Journal of the Acoustical Society of America

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“…[15][16][17] Therefore, an accurate description of the MPP inside complex vibroacoustic environment requires the inclusion of MPP vibration.…”

Section: Formulationmentioning

confidence: 99%

“…1 is considered here, in which staggered partial partitions or MPPs are connected in cascade through open acoustic cavities. The system can actually represent a wide range of practical applications, such as MPP backed by air layer and flexible plate, 16 double-glazed ventilation window 27 and with MPP absorbers, 13 allowing a flexible description of the separation layers. In the inlet duct, the system is excited by a normal incident plane wave.…”

Section: Mpp Inside Complex Vibroacoustic Environmentmentioning

confidence: 99%

“…Because of its appealing features such as cleanable, fiber-free and noncombustible, MPPs have found their use in a wide range of practical applications. [13][14][15][16][17][18][19][20] For example, Kang and Brocklesby 13 investigated the feasibility of applying MPP absorbers in ventilated window system. Allam and Å bom 14 proposed a new type of silencer based on MPP with slit holes.…”

Section: Introductionmentioning

confidence: 99%

“…Wang et al 15 developed a hybrid silencer using lightweight MPPs coupled with side-branch cavities. Bravo et al 16,17 discussed the sound absorption and transmission of flexible MPPs and MPPs backed by a flexible plate. Liu and Herrin 18 studied the effect of MPP absorption in acoustic enclosure by partitioning the backing cavity.…”

Section: Introductionmentioning

confidence: 99%

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Modeling vibroacoustic systems involving cascade open cavities and micro-perforated panels

Guyader

2014

The Journal of the Acoustical Society of America

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While the structural-acoustic coupling between flexible structures and closed acoustic cavities has been extensively studied in the literature, the modeling of structures coupled through open cavities, especially connected in cascade, is still a challenging task for most of the existing methods. The possible presence of micro-perforated panels (MPPs) in such systems adds additional difficulties in terms of both modeling and physical understanding. In this study, a sub-structuring methodology based on the Patch Transfer Function (PTF) approach with a Compound Interface treatment technique, referred to as CI-PTF method, is proposed, for dealing with complex systems involving cascade open/closed acoustic cavities and MPPs. The co-existence of apertures and solid/flexible/micro-perforated panels over a mixed separation interface is characterized using a compound panel subsystem, which enhances the systematic coupling feature of the PTF framework. Using several typical configurations, the versatility and efficiency of the proposed method is illustrated. Numerical studies highlight the physical understanding on the behavior of MPP inside a complex vibroacoustic environment, thus providing guidance for the practical design of such systems.

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Experimental and theoretical investigation of sound transmission loss for polycarbonate, poly(methyl methacrylate), and glass

Sabet

Ohadi

2015

J of Applied Polymer Sci

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In this study, the effects of the soundproofing properties of polycarbonate (PC), poly(methyl methacrylate) (PMMA), and glass were investigated. We fabricated the specimens into 3 mm thick sheets by direct hot compression molding as a monolithic sample and also by gluing three thin sheets together into a multilayer. Sound transmission loss (STL) was measured by an impedance tube over the frequency range 63-1600 Hz. The results indicate that because of the close density, the STLs for PC and PMMA were almost the same above 1200 Hz. Also, PMMA had a greater STL than PC in the range 63-300 Hz. In a comparison of the monolithic and multilayered samples, we demonstrated that the epoxy-based adhesive interlayers had more efficient bonding than the siliconebased ones. The multilayered polymer/silicone specimens showed a sharp drop in the STL values compared to the monolithic samples. However, the multilayered polymer/epoxy specimens revealed similar behavior to the monolithic polymers. V C 2015 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2016, 133, 42988.

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Sound absorption and transmission through flexible micro-perforated panels backed by an air layer and a thin plate

Cited by 67 publications

References 19 publications

Enhancing sound absorption and transmission through flexible multi-layer micro-perforated structures

Enhancing sound absorption and transmission through flexible multi-layer micro-perforated structures

Modeling vibroacoustic systems involving cascade open cavities and micro-perforated panels

Experimental and theoretical investigation of sound transmission loss for polycarbonate, poly(methyl methacrylate), and glass

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