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Pré-Publication, Document De Travail Année : 2024

On the vibratory response of a fluid-saturated microperforated plate within an acoustic nonlinear regime

Résumé

Microperforated plates are commonly used in the field of acoustics for sound absorption purposes. Recent research in the area of structural dynamics revealed that they also provide additional viscous damping in the low-frequency ranges due to fluid-solid interactions in the microperforation boundary layers, mainly through viscous friction mechanisms. It is now established that the vibratory behavior of these systems can be modelled using a homogenization procedure which produces a pair of coupled partial differential equations (PDEs) collectively governing the dynamics of both a structural plate and a fictitious virtual fluid plate. It has been observed that the added damping achieves its maximum at a characteristic frequency determined by the size of the perforations. It is also known that these systems, which can be implemented in hostile environments such as aircraft turbines, involve nonlinear mechanisms for large mechanical and/or acoustic excitations. Two nonlinear configurations stand out: (i) nonlinearity stemming from high fluid flow and (ii) nonlinearity stemming from high fluid flow along with large structural displacements.

The present paper focuses exclusively on the first configuration. As the fluid velocity increases inside the perforations, resistive and inertial phenomena arise within the perforations, influencing the structural response. These effects can be partly captured analytically by the Forchheimer correction, materialized by an additional quadratic nonlinear damping term in the governing PDE governing the dynamics of the fictitious fluid plate. The governing equations are solved numerically, and sensitivity analyses are carried out on the added damping to the excitation level. The proposed model is validated by experiments conducted on a cantilevered MPP. Analytical and experimental results show that the added viscous damping depends on the relative fluid-solid velocity. The added damping effect can, depending on the perforation diameter, reach a maximum for a critical value of relative fluid-solid velocity, with all other independent parameters fixed. In the non-linear frame, the added damping is a function of space and depends not only on the perforation diameter as in the linear frame, but also on the relative fluid-solid velocity, and is defined as a function of space.
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Dates et versions

hal-04528668 , version 1 (01-04-2024)

Identifiants

  • HAL Id : hal-04528668 , version 1

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Lucie Gallerand, Mathias Legrand, Thomas Dupont, Raymond Panneton, Philippe Leclaire​. On the vibratory response of a fluid-saturated microperforated plate within an acoustic nonlinear regime. 2024. ⟨hal-04528668⟩
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