a Theoretical and Experimental Study of Acoustic Propagation in Multisectioned Circular Ducts.
Abstract
The propagation of plane waves and higher order acoustic modes in a circular multisectioned duct was studied. A unique source array consisting of two concentric rings of sources, providing phase and amplitude control in the radial, as well as circumferential direction, was developed to generate plane waves and both spinning and nonspinning higher order modes. Measurements of attenuation and radial mode shapes were taken with finite length liners inserted between the hard wall sections of an anechoically terminated duct. Materials tested as liners included a glass fiber material and both sintered fiber metals and perforated sheet metals with a honeycomb backing. The fundamental acoustic properties of these materials were studied with emphasis on the attenuation of sound by the liners and the determination of local versus extended reaction behavior for the boundary condition. A search technique was developed to find the complex eigenvalues for a liner under the assumption of a locally reacting boundary condition.
- Publication:
-
Ph.D. Thesis
- Pub Date:
- March 1976
- Bibcode:
- 1976PhDT........18W
- Keywords:
-
- Physics: Acoustics;
- Acoustic Ducts;
- Acoustic Propagation;
- Circular Cylinders;
- Plane Waves;
- Acoustic Attenuation;
- Glass Fibers;
- Honeycomb Structures;
- Sound Propagation;
- Wave Generation;
- Acoustics