Özet:

   In this study, dynamic analysis of axisymmetric circular plates subjected to two type of dynamic loads are theoretically investigated. The solutions of damped response of the considered structure have been obtained by the Laplace transform method and finite element method using the two dimensional plane elements. Materials of the plate are assumed to be isotropic, linear elastic and/or viscoelastic. In the viscoelastic material case, the Kelvin model is employed. According to the correspondence principle the material constants are replaced with their complex counterparts in the Laplace domain. The governing equations of motion of the problem are first obtained in the time domain. Laplace transform is then applied and the set of simultaneous linear algebraic equations are solved numerically in the transferred domain. The solutions obtained are transformed to the time domain using an appropriate numerical inverse Laplace transform method. For the suggested model, a finite element analysis computer program is coded in Fortran. Verification and exactness of the written program is performed by comparing the results of the present method and with those of ANSYS.

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