Shear surface acoustic waves at the interface of an elastic solid and a viscous fluid
Abstract
The effect of a viscous loading of the surface of an acoustic medium on the propagation of shear waves has been investigated theoretically. It is assumed that the acoustic medium is a class C(6 V) piezoelectric crystal with a hexagonal axis parallel to the Z axis. Shear oscillations in the medium are described by a modified Navier-Stokes equation. Values are obtained for the damping coefficients of Gulyaev-Bleustein waves for a strongly piezoelectric acoustic medium. It is shown that the damping of Gulyaev-Bleustein waves by an air load at a frequency of 10 to the 8th Hz may be many times greater than the intrinsic absorption in a strong piezoelectric.
- Publication:
-
Pisma v Zhurnal Tekhnischeskoi Fiziki
- Pub Date:
- March 1984
- Bibcode:
- 1984PZhTF..10..296P
- Keywords:
-
- Bulk Acoustic Wave Devices;
- Elastic Bodies;
- S Waves;
- Surface Acoustic Wave Devices;
- Viscous Fluids;
- Wave Propagation;
- Damping;
- Fluid-Solid Interactions;
- Oscillations;
- Piezoelectric Crystals;
- Electronics and Electrical Engineering