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The behavior of annular plates with clamped clamped immovable boundary conditions subjected to axisymmetric in-plane thermal loads is considered.
The effect of varying values of rotational and translational restraints, foundation restraint and radius of the annular plate on the vibration behavior of annular plates is studied in detail.
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The natural frequencies of annular plates are found for different length and number of cracks.
The equations of motion of annular plates have been obtained via conical shell equations.
Effect of the size of the hole on the fundamental frequency of annular plates clamped at both edges is shown in Fig. 4.
An investigation of the natural frequencies and mode shapes of annular plates with concentric elastic attachments is presented.
This paper deals with the vibration and stability of annular plates elastically restrained against translation and rotation at the edges.
The natural frequencies and modal loss factors of annular plates with fully and partially constrained damping treatments are considered.
Furthermore, the effect of the foundation stiffness parameters, thickness radius ratio, inner outer radius ratio and different combinations of boundary conditions on the ill-conditioning of the mass matrix as well as on the vibration behavior of the annular plates is investigated.
The results show that ANN can acceptably model the behavior of FG annular plates with different boundary conditions.
Moreover, parametric study is presented to show the effects of the gradient direction, outer radius to thickness ratio, edges boundary conditions on the thermoelastic behavior of sandwich annular plates.
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