Title of article :
Vibration and buckling analysis of two-layered functionally graded cylindrical shell, considering the effects of transverse shear and rotary inertia
Author/Authors :
H.A. Sepiani، نويسنده , , A. Rastgoo، نويسنده , , F. Ebrahimi، نويسنده , , A. Ghorbanpour Arani، نويسنده ,
Issue Information :
ماهنامه با شماره پیاپی سال 2010
Pages :
7
From page :
1063
To page :
1069
Abstract :
This research investigates the free vibration and buckling of a two-layered cylindrical shell made of inner functionally graded (FG) and outer isotropic elastic layer, subjected to combined static and periodic axial forces. Material properties of functionally graded cylindrical shell are considered as temperature dependent and graded in the thickness direction according to a power-law distribution in terms of the volume fractions of the constituents. Theoretical formulations are presented based on two different methods of first-order shear deformation theory (FSDT) considering the transverse shear strains and the rotary inertias and the classical shell theory (CST). The results obtained show that the transverse shear and rotary inertias have considerable effect on the fundamental frequency of the FG cylindrical shell. The results for nondimensional natural frequency are in a close agreement with those in literature. It is inferred from the results that the geometry parameters and material composition of the shell have significant effect on the critical axial force, so that the minimum critical load is obtained for fully metal shell. Good agreement between theoretical and finite element results validates the approach. It is concluded that the presence of an additional elastic layer significantly increases the nondimensional natural frequency, the buckling resistance and hence the elastic stability in axial compression with respect to a FG hollow cylinder.
Keywords :
Functionally graded material , Vibration , Buckling , Stability , Two-layered functionally graded cylindrical shell
Journal title :
Materials and Design
Serial Year :
2010
Journal title :
Materials and Design
Record number :
1068709
Link To Document :
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