Utilizing polydispersity in three-dimensional random fibrous based sound absorbing materials - Mechanics
Article Dans Une Revue Materials & Design Année : 2024

Utilizing polydispersity in three-dimensional random fibrous based sound absorbing materials

Résumé

The distribution of fiber diameters plays a crucial role in the transport and sound absorbing properties of a threedimensional random fibrous (3D-RF) medium. Conventionally, volume-weighted averaging of fiber diameters has been utilized as an appropriate microstructural descriptor to predict the static viscous permeability of 3D-RF media. However, the long wavelength acoustical properties of a 3D-RF medium are also sensitive to the smallest fibers, this is particularly true in the high-frequency regime. In our recent research, we demonstrated that an inverse volume-weighted averaging of fiber diameters can effectively serve as a complementary microstructural descriptor to capture the high-frequency behavior of polydisperse fibrous media. In the present work, we reexamine the identification of two representative volume elements (RVEs) which relies on the reconstruction of 3D-RF microstructures having volume-weighted and inverse-volume weighted averaged fiber diameters, respectively in the low-frequency and high frequency regimes. We investigate the implication of such a weighting procedure on the transport and sound absorbing properties of polydisperse fibrous media, highlighting their potential advantages. Furthermore, we discuss the challenges associated with this research field. Finally, we provide a brief perspective of the future directions and opportunities for advancing this area of study.
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hal-04750924 , version 1 (24-10-2024)

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Quang Vu Tran, Camille Perrot, Raymond Panneton, Minh Tan Hoang, Ludovic Dejaeger, et al.. Utilizing polydispersity in three-dimensional random fibrous based sound absorbing materials. Materials & Design, 2024, 247, pp.113375. ⟨10.1016/j.matdes.2024.113375⟩. ⟨hal-04750924⟩
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