Finite Element Study of Perfect Sound Absorbing Porous Material with Periodic Conical Hole Profile

Auteurs-es

  • Zacharie Laly Université de Sherbrooke, CA
  • Noureddine Atalla Université de Sherbrooke, CA
  • Raymond Panneton Université de Sherbrooke, CA
  • Sebastian Ghinet National Research Council Canada, CA
  • Christopher Mechefske Queen's University, CA

Résumé

Porous materials are widely used in several engineering applications for noise reduction. The acoustic performance of these materials at low frequency is low and depends on their acoustic penetration depth or critical depth. When the thickness of the porous material is equal to the critical depth, the sound absorption reaches its asymptotic limit so that a further increase in the material thickness does not improve the absorption coefficient. To overcome this limitation, a porous material design with a periodically distributed conical hole is proposed and its acoustic performance is investigated using the finite element method. Compared to a conventional porous layer, the total mass of the proposed design is reduced and its sound absorption coefficient is significantly improved over a large frequency band. This material design with periodic conical hole is coupled with other conventional porous materials to create a multi-layered system that shows efficient sound absorption performance. The proposed material design can be used as anechoic termination and help in several other applications for noise reduction.

Fichiers supplémentaires

Publié-e

2023-10-09

Comment citer

1.
Laly Z, Atalla N, Panneton R, Ghinet S, Mechefske C. Finite Element Study of Perfect Sound Absorbing Porous Material with Periodic Conical Hole Profile. Canadian Acoustics [Internet]. 9 oct. 2023 [cité 20 mai 2024];51(3):134-5. Disponible à: https://jcaa.caa-aca.ca/index.php/jcaa/article/view/4026

Numéro

Vol. 51 No. 3 (2023): Actes de la conférence Semaine canadienne de l'acoustique 2023

Rubrique

Actes du congrès de la Semaine canadienne d'acoustique

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