Nonlinear resonance interaction of ultrasonic waves under applied stress
- 1 July 1984
- journal article
- Published by AIP Publishing in Journal of Applied Physics
- Vol. 56 (1) , 235-237
- https://doi.org/10.1063/1.333759
Abstract
The stress effect on the nonlinear resonance interaction T+T→L is experimentally investigated using an Al 5083 specimen. Compressive stress applied at the localized region where two noncollinear transverse waves intersect each other is shown to vary, up to ±8.5%, of the amplitude of the longitudinal wave generated through the resonance interaction. The amplitude variation with stress is explained by relating the stress induced change of elastic wave velocities (acoustoelastic effect) to the change in the resonance angle, and then to the directional characteristics of the two incoming transverse beams. The weak anisotropy of the material is taken into account.This publication has 8 references indexed in Scilit:
- Determination of in-plane residual stress states in plates using horizontally polarized shear wavesJournal of Applied Physics, 1983
- Noncollinear three-phonon interactions in a multimode structureJournal of Applied Physics, 1974
- Detection of Surface-Wave Three-Phonon InteractionApplied Physics Letters, 1971
- Theory of Ultrasonic Three-Phonon Interactions in Single-Crystal SolidsJournal of Applied Physics, 1969
- Ultrasonic Study of Three-Phonon Interactions. I. TheoryPhysical Review B, 1964
- Ultrasonic Study of Three-Phonon Interactions. II. Experimental ResultsPhysical Review B, 1964
- Interaction of Elastic Waves in an Isotropic SolidThe Journal of the Acoustical Society of America, 1963
- Second-Order Elastic Deformation of SolidsPhysical Review B, 1953