Add to ORKGFor wave propagation in thin gas or fluid layers, the effects of viscosity and thermal conductivity have to be accounted for. These effects can introduce a significant dissipation of energy. A model to describe viscothermal wave propagation was developed. It includes the effect of inertia, viscosity, compressibility and thermal conductivity. Also the interaction with a flexible structure, the acousto
Recent work in the acoustic metamaterial literature has focused on the design of metasurfaces that a...
"In this paper, effect of radiation, heat-conduction and viscosity on propagation of one-dimensiona...
"In this paper, effect of radiation, heat-conduction and viscosity on propagation of one-dimensiona...
This paper deals with viscothermal wave propagation, including acousto-elastic interaction, For wave...
This research deals with pressure waves in a gas trapped in thin layers or narrow tubes. In these ca...
This research deals with pressure waves in a gas trapped in thin layers or narrow tubes. In these ca...
The propagation of sound waves in thin gas or fluid layers can be significantly affected by viscothe...
In this work, the accuracy, efficiency and range of applicability of various (approximate) models fo...
International audienceViscous and thermal effects occur during the propagation of linear waves in a ...
Viscosity and thermal conductivity can cause dissipation of acoustic energy in thin air layers [I,2,...
In Part I of the present paper a parameter analysis showed that the most efficient model to describe...
The well known wave equation describes isentropic wave propagation. In this equation, non-isentropic...
The well known wave equation describes isentropic wave propagation. In this equation, non-isentropic...
In acoustics it is generally assumed that viscous- en thermal boundary layer effects play a minor ro...
In acoustics it is generally assumed that viscous- en thermal boundary layer effects play a minor ro...
Recent work in the acoustic metamaterial literature has focused on the design of metasurfaces that a...
"In this paper, effect of radiation, heat-conduction and viscosity on propagation of one-dimensiona...
"In this paper, effect of radiation, heat-conduction and viscosity on propagation of one-dimensiona...
This paper deals with viscothermal wave propagation, including acousto-elastic interaction, For wave...
This research deals with pressure waves in a gas trapped in thin layers or narrow tubes. In these ca...
This research deals with pressure waves in a gas trapped in thin layers or narrow tubes. In these ca...
The propagation of sound waves in thin gas or fluid layers can be significantly affected by viscothe...
In this work, the accuracy, efficiency and range of applicability of various (approximate) models fo...
International audienceViscous and thermal effects occur during the propagation of linear waves in a ...
Viscosity and thermal conductivity can cause dissipation of acoustic energy in thin air layers [I,2,...
In Part I of the present paper a parameter analysis showed that the most efficient model to describe...
The well known wave equation describes isentropic wave propagation. In this equation, non-isentropic...
The well known wave equation describes isentropic wave propagation. In this equation, non-isentropic...
In acoustics it is generally assumed that viscous- en thermal boundary layer effects play a minor ro...
In acoustics it is generally assumed that viscous- en thermal boundary layer effects play a minor ro...
Recent work in the acoustic metamaterial literature has focused on the design of metasurfaces that a...
"In this paper, effect of radiation, heat-conduction and viscosity on propagation of one-dimensiona...
"In this paper, effect of radiation, heat-conduction and viscosity on propagation of one-dimensiona...