AI Article Synopsis
- There are ten allowable nonlinear elastic wave interactions in isotropic solids, governed by three third-order constants.
- The interactions involve longitudinal and two shear waves, and the resulting amplitude expressions are straightforward, aiding in experimental design.
- Results are validated through numerical comparisons, and amplitude coefficients for polyvinyl chloride are calculated as functions of frequency, with a general vector form for the nonlinear equation of motion applicable to various coordinate systems.
Article Abstract
There exist ten possible nonlinear elastic wave interactions for an isotropic solid described by three constants of the third order. All other possible interactions out of 54 combinations (triplets) of interacting and resulting waves are prohibited, because of restrictions of various kinds. The considered waves include longitudinal and two shear waves polarized in the interacting plane and orthogonal to it. The amplitudes of scattered waves have simple analytical forms, which can be used for experimental setup and design. The analytic results are verified by comparison with numerical solutions of initial equations. Amplitude coefficients for all ten interactions are computed as functions of frequency for polyvinyl chloride, together with interaction and scattering angles. The nonlinear equation of motion is put into a general vector form and can be used for any coordinate system.
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| http://dx.doi.org/10.1121/1.4861241 | DOI Listing |
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