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Application of dynamic stiffness method for accurate free vibration analysis of sigmoid and exponential functionally graded rectangular plates

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Abstract In this work, the dynamic stiffness method (DSM) is implemented to investigate free vibration behaviour of thin rectangular functionally graded material (FGM) plate with the sigmoid (S-FGM) and exponential… Click to show full abstract

Abstract In this work, the dynamic stiffness method (DSM) is implemented to investigate free vibration behaviour of thin rectangular functionally graded material (FGM) plate with the sigmoid (S-FGM) and exponential (E-FGM) property variations along its thickness direction. Both uniform and stepped thickness FGM plates are considered in this study. Classical plate theory in conjunction with the physical neutral surface of the FGM plate is utilized to obtain the governing differential equation of motion including the effect of rotary inertia. Considering Levy type plates, the dynamic stiffness matrix is developed through the application of displacement and force boundary conditions at the appropriate edges. The well-known Wittrick-Williams algorithm is employed to solve this dynamic stiffness matrix in order to compute the natural frequencies of the plate with reasonably high accuracy. It is shown upon comparison with the existing literature that the DSM frequency results are most accurate and can be referred to judge the accuracy of several other numerical solutions applied to thin S-FGM and E-FGM plates. This study also highlights some insufficiently accurate published results and points out the possible reasons for this inaccuracy. Finally, this study reports a set of new results by changing different plate parameters which will be useful in the design of both uniform and stepped FGM plates under considerations.

Keywords: functionally graded; free vibration; dynamic stiffness; stiffness method; fgm

Journal Title: International Journal of Mechanical Sciences
Year Published: 2019

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