Abstract
The distribution of displacement, temperature, and stress in a homogeneous, isotropic, thermally conducting, infinitely extended, stretched elastic plate resulting from a flat-nosed, cylindrical projectile have been investigated in the context of the Lord-Shulman theory of thermoelasticity. The Laplace transform technique is used to obtain the solutions. Because the second-sound effects are of short duration, the discussion is confined to small time approximations. The displacement is found to be continuous, but temperature and stress are found to be discontinuous. The long time solutions are also discussed. The jumps have been computed numerically and are represented graphically for carbon-steel material.
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