AI Article Synopsis
- Anisotropic materials pose challenges in determining elastic properties due to complex relationships among wave propagation direction, polarizations, and material symmetries.
- The study presents equations for phase velocities of shear wave (SH) and secondary wave (SV) modes in incompressible, hyperelastic materials under uniaxial stretch, incorporating wave motion into the material model.
- Results highlight shear splitting in Mooney-Rivlin and Isihara models, revealing unequal group velocities across the symmetry axis, and indicate the presence of cusp structures for certain angles in Arruda-Boyce and Isihara models at high stretch levels.
Article Abstract
Determining elastic properties of materials from observations of shear wave propagation is difficult in anisotropic materials because of the complex relations among the propagation direction, shear wave polarizations, and material symmetries. In this study, we derive expressions for the phase velocities of the SH and SV propagation modes as a function of propagation direction in an incompressible, hyperelastic material with uniaxial stretch.Wave motion is included in the material model by adding incremental, small amplitude motion to the initial, finite deformation. Equations of motion for the SH and SV propagation modes are constructed using the Cauchy stress tensor derived from the strain energy function of the material. Group velocities for the SH and SV propagation modes are derived from the angle-dependent phase velocities.Sample results are presented for the Arruda-Boyce, Mooney-Rivlin, and Isihara material models using model parameters previously determined in a phantom.Results for the Mooney-Rivlin and Isihara models demonstrate shear splitting in which the SH and SV propagation modes have unequal group velocities for propagation across the material symmetry axis. In addition, for sufficiently large stretch, the Arruda-Boyce and Isihara material models show cusp structures with triple-valued group velocities for the SV mode at angles of roughly 15° to the material symmetry axis.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9112140 | PMC |
| http://dx.doi.org/10.1088/1361-6560/ac5bfc | DOI Listing |
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