Three-Dimensional Free Vibration Analysis of a Viscothermoelastic Hollow Sphere

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DOI: 10.4236/oja.2012.21002    4,994 Downloads   10,786 Views  Citations

ABSTRACT

This paper concentrates on the study of the three-dimensional free vibrations in a homogenous isotropic, viscothermoelastic hollow sphere whose surfaces are subjected to stress free, thermally insulated or isothermal boundary conditions. The use of governing partial differential equations is solved into a coupled system of ordinary differential equations. The equation for toroidal motion gets decoupled from rest of the motion and remains unaffected due to thermal variations. Matrix Fr?benious method of extended power series is employed to obtain the solution. The secular equations for the existence of various types of possible modes of vibrations in the considered hollow sphere are derived in the com- pact form. The special cases of spheroidal and toroidal modes of vibrations of a hollow sphere have also been deduced and discussed. In order to explore the characteristics of vibrations the secular equations are further solved by using fixed point iteration numerical technique with the help of MATLAB software tools. The computer simulated results have been presented graphically for copper material.

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J. Sharma, D. Sharma and S. Dhaliwal, "Three-Dimensional Free Vibration Analysis of a Viscothermoelastic Hollow Sphere," Open Journal of Acoustics, Vol. 2 No. 1, 2012, pp. 12-24. doi: 10.4236/oja.2012.21002.
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