Add to ORKGViscosity and thermal conductivity can cause dissipation of acoustic energy in thin air layers [I,2,3]. Recently a new acoustic finite element was developed for a thin air layer trapped between two flexible panels [4,5]. This element also includes the thermal and viscous effects in the air layer and the mutua
The effect of viscosity and thermal conduction on the acoustics in a shear layer above an impedance ...
The dynamical behaviour of solar panels during launch is significantly affected by the thin layers o...
The effect of viscosity and thermal conduction on the acoustics in a shear layer above an impedance ...
In this paper, an analytical two-dimensional model is presented for the acousto-elastic behaviour of...
In this paper, an analytical two-dimensional model is presented for the acousto-elastic behaviour of...
The propagation of sound waves in thin gas or fluid layers can be significantly affected by viscothe...
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...
The present study focuses on the feasibility of noise reduction with double wall panels. The emphasi...
This paper deals with viscothermal wave propagation, including acousto-elastic interaction, For wave...
This paper deals with the dynamic behaviour of double wall panels, with emphasis on damping and soun...
For wave propagation in thin gas or fluid layers, the effects of viscosity and thermal conductivity ...
The damping behaviour of a thin air layer between two flexible panels can be used to reduce sound ra...
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...
The effect of viscosity and thermal conduction on the acoustics in a shear layer above an impedance ...
The dynamical behaviour of solar panels during launch is significantly affected by the thin layers o...
The effect of viscosity and thermal conduction on the acoustics in a shear layer above an impedance ...
In this paper, an analytical two-dimensional model is presented for the acousto-elastic behaviour of...
In this paper, an analytical two-dimensional model is presented for the acousto-elastic behaviour of...
The propagation of sound waves in thin gas or fluid layers can be significantly affected by viscothe...
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...
The present study focuses on the feasibility of noise reduction with double wall panels. The emphasi...
This paper deals with viscothermal wave propagation, including acousto-elastic interaction, For wave...
This paper deals with the dynamic behaviour of double wall panels, with emphasis on damping and soun...
For wave propagation in thin gas or fluid layers, the effects of viscosity and thermal conductivity ...
The damping behaviour of a thin air layer between two flexible panels can be used to reduce sound ra...
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...
The effect of viscosity and thermal conduction on the acoustics in a shear layer above an impedance ...
The dynamical behaviour of solar panels during launch is significantly affected by the thin layers o...
The effect of viscosity and thermal conduction on the acoustics in a shear layer above an impedance ...