Add to ORKGThe objective of the paper is to demonstrate the homogenization approach applied to modelling the acoustic transmission on perforated interfaces embedded in the acoustic fluid. We assume a layer, with periodically perforated obstacles, separating two half-spaces filled with the fluid. The homogenizationmethod provides limit transmission conditions which can be prescribed at the homogenized surface representing the “limit” interface. The conditions describe relationship between jump of the acoustic pressures and the transversal acoustic velocity, on introducing the “in-layer pressure” which describes wave propagation in the tangent directions with respect to the interface. This approach may serve as a relevant tool for optimal design o...
Copyright © 2014 E. M. Sánchez-Orgaz et al. This is an open access article distributed under the Cr...
This paper aims to clarify the homogenization results of the fluid–structure interaction in porous s...
A finite element approach is proposed for the acoustic analysis of automotive silencers including a ...
The objective of the paper is to demonstrate the homogenization approach applied to modelling the ac...
The paper deals with modeling the acoustic transmission through a perforated interface plane separat...
AbstractThe paper deals with homogenized transmission conditions imposed on an interface plane separ...
The paper is devoted to the homogenization of the acoustic waves interacting with background steady ...
The paper deals with the acoustic transmission through perforated interface and its sensitivity w.r....
We consider acoustic waves propagating in an inviscid fluid interacting with a rigid periodically pe...
The paper is devoted to the homogenization of the vibroacoustic fluid-structure interaction problem ...
The direct numerical simulation of the acoustic wave propagation in multiperforated absorbers with h...
The paper deals with optimization of a perforated plate which interacts with acoustic waves propagat...
International audienceWe consider the three-dimensional scalar problem of acoustic propagation in a ...
Sound transmission through a fluid-loaded finite perforated panel set in an infinite unperforated ri...
International audienceA homogenization method for thin microstructured surfaces and films is present...
Copyright © 2014 E. M. Sánchez-Orgaz et al. This is an open access article distributed under the Cr...
This paper aims to clarify the homogenization results of the fluid–structure interaction in porous s...
A finite element approach is proposed for the acoustic analysis of automotive silencers including a ...
The objective of the paper is to demonstrate the homogenization approach applied to modelling the ac...
The paper deals with modeling the acoustic transmission through a perforated interface plane separat...
AbstractThe paper deals with homogenized transmission conditions imposed on an interface plane separ...
The paper is devoted to the homogenization of the acoustic waves interacting with background steady ...
The paper deals with the acoustic transmission through perforated interface and its sensitivity w.r....
We consider acoustic waves propagating in an inviscid fluid interacting with a rigid periodically pe...
The paper is devoted to the homogenization of the vibroacoustic fluid-structure interaction problem ...
The direct numerical simulation of the acoustic wave propagation in multiperforated absorbers with h...
The paper deals with optimization of a perforated plate which interacts with acoustic waves propagat...
International audienceWe consider the three-dimensional scalar problem of acoustic propagation in a ...
Sound transmission through a fluid-loaded finite perforated panel set in an infinite unperforated ri...
International audienceA homogenization method for thin microstructured surfaces and films is present...
Copyright © 2014 E. M. Sánchez-Orgaz et al. This is an open access article distributed under the Cr...
This paper aims to clarify the homogenization results of the fluid–structure interaction in porous s...
A finite element approach is proposed for the acoustic analysis of automotive silencers including a ...