Abstract
Abstract
The transference of torsional surface waves in an infinite triclinic cylinder has been investigated. The equation of motion has been expressed in the cylindrical coordinate system, and by the means of the separation of variables, the displacement has been derived in terms of the Bessel function of the first kind and second kind. With the use of suitable boundary conditions, the dispersion equation has been deduced in a closed-form. Particular cases have been derived for monoclinic, orthotropic, transversely isotropic(precisely transtropic), and isotropic medium. The continuum comparision of each one of the cases have been discussed in details. In order to exhibit the present findings, 2D and 3D graphs have been plotted for phase velocity against wave number to study the impact of elastic coefficients and the ratio of radii of the cylinder. In the end, phase velocity for different media has been compared numerically. The study may be useful to construct torsional wave sensors in predicting the extent of damage during an earthquake by means of artificial explosions.
Subject
Condensed Matter Physics,Mathematical Physics,Atomic and Molecular Physics, and Optics
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