The propagation of acoustic waves in porous materials having a rigid frame is well described by several models. A doubt about the causality of these models has been raised recently in the literature. A verification of the causality of these models is studied in this paper using the Kramers–Kronig dispersion relations adapted to the frequency power law dependence of the attenuation. It is shown that these models are causal in the high- and low-frequency range. A time domain wave equation and time-causal theory have been treated
The aim of this work is to contribute to the characterization of the acoustic behaviour of porous ma...
Porosity in composite media using ultrasonic waves is characterized. The derivation of local approxi...
International audienceA frequency domain method dedicated to the analytic recovery of the four relev...
International audienceAn acoustic method is proposed for measuring the low frequencies parameters of...
International audienceThis paper provides a temporal model for the propagation of transient acoustic...
International audienceIn this article, a modeling extension for the description of wave propagation ...
International audienceAn overview of the models and parameters of the acoustic wave propagation in p...
International audienceTime domain responses of porous media have been studied by some authors, but g...
In porous materials the frame elasticity and its coupling with the surrounding fluid (e.g. air) are ...
The paper contains the analysis of the propagation of acoustic waves in two-component poroelastic me...
We review main properties of acoustic waves which are described by continuous models of saturated po...
It is well known that in unbounded media the acoustic attenuation as function of frequency is linked...
The aspects related to the frequency dependence of the elastic properties of porous materials have b...
International audienceIn recent years, a number of models to calculate the acoustical behaviour of p...
L'une des problématiques du domaine aéronautique réside dans la réduction de bruit provenant des nac...
The aim of this work is to contribute to the characterization of the acoustic behaviour of porous ma...
Porosity in composite media using ultrasonic waves is characterized. The derivation of local approxi...
International audienceA frequency domain method dedicated to the analytic recovery of the four relev...
International audienceAn acoustic method is proposed for measuring the low frequencies parameters of...
International audienceThis paper provides a temporal model for the propagation of transient acoustic...
International audienceIn this article, a modeling extension for the description of wave propagation ...
International audienceAn overview of the models and parameters of the acoustic wave propagation in p...
International audienceTime domain responses of porous media have been studied by some authors, but g...
In porous materials the frame elasticity and its coupling with the surrounding fluid (e.g. air) are ...
The paper contains the analysis of the propagation of acoustic waves in two-component poroelastic me...
We review main properties of acoustic waves which are described by continuous models of saturated po...
It is well known that in unbounded media the acoustic attenuation as function of frequency is linked...
The aspects related to the frequency dependence of the elastic properties of porous materials have b...
International audienceIn recent years, a number of models to calculate the acoustical behaviour of p...
L'une des problématiques du domaine aéronautique réside dans la réduction de bruit provenant des nac...
The aim of this work is to contribute to the characterization of the acoustic behaviour of porous ma...
Porosity in composite media using ultrasonic waves is characterized. The derivation of local approxi...
International audienceA frequency domain method dedicated to the analytic recovery of the four relev...