In this paper the sound propagation in a rectangular duct containing a bulk absorbing foam liner is investigated. The foam is characterized by the complex characteristic impedance and propagation constant which are measured using an improved two-cavity method. These quantities are used to predict the normal incidence impedance and absorption coefficient of the foam which is compared to measured data obtained using the ASTM E-1050 test method. The complex characteristic impedance and propagation constant are also used to predict the attenuation through a layer of foam in a plane-wave tube for which measured results are also available. Finally, the boundary element method is used to predict the attenuation of sound in a rectangular duct where...
International audienceThe proposed study focuses on the modeling of acoustic wave propagation in inf...
Acoustic breakout noise is predominant in flexible rectangular ducts. The study of the sound radiate...
A study of determining impedance of a large-size sound-absorbing liner with azimuthal acoustic modes...
Highly porous, fibrous bulk sound absorbing materials are studied with a view toward understanding t...
In this thesis, a multi-dimensional model for wave propagation in elastic porous materials is discus...
A test campaign was carried out, by means of an experimental apparatus compliant with EN ISO 11691 a...
A theoretical analysis of sound propagation in cylindrical ducts lined with porous material (bulk ab...
Investigating the sound field in and around ducts is an important topic in acoustics, e.g. when simu...
A general finite element formulation for analysis of the sound field in a uniform flow duct with a b...
In this thesis an elastic-absorption finite element model of isotropic elastic porous noise control ...
In acoustics, sound absorption is one of the major definitions and an important factor to be conside...
In this paper, a model for sound propagation in double porosity materials with elastic frame is prop...
The propagation of sound inside porous absorbing material can be described completely by use of the ...
Acoustic absorption materials are widely used today to dampen and attenuate the noises which exist a...
This paper deals with the radiation of sound from the open-end of a flanged rectangular lined duct. ...
International audienceThe proposed study focuses on the modeling of acoustic wave propagation in inf...
Acoustic breakout noise is predominant in flexible rectangular ducts. The study of the sound radiate...
A study of determining impedance of a large-size sound-absorbing liner with azimuthal acoustic modes...
Highly porous, fibrous bulk sound absorbing materials are studied with a view toward understanding t...
In this thesis, a multi-dimensional model for wave propagation in elastic porous materials is discus...
A test campaign was carried out, by means of an experimental apparatus compliant with EN ISO 11691 a...
A theoretical analysis of sound propagation in cylindrical ducts lined with porous material (bulk ab...
Investigating the sound field in and around ducts is an important topic in acoustics, e.g. when simu...
A general finite element formulation for analysis of the sound field in a uniform flow duct with a b...
In this thesis an elastic-absorption finite element model of isotropic elastic porous noise control ...
In acoustics, sound absorption is one of the major definitions and an important factor to be conside...
In this paper, a model for sound propagation in double porosity materials with elastic frame is prop...
The propagation of sound inside porous absorbing material can be described completely by use of the ...
Acoustic absorption materials are widely used today to dampen and attenuate the noises which exist a...
This paper deals with the radiation of sound from the open-end of a flanged rectangular lined duct. ...
International audienceThe proposed study focuses on the modeling of acoustic wave propagation in inf...
Acoustic breakout noise is predominant in flexible rectangular ducts. The study of the sound radiate...
A study of determining impedance of a large-size sound-absorbing liner with azimuthal acoustic modes...