Thermal buckling and postbuckling analysis of piezoelectric FGM beams based on high-order shear deformation theory |
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Authors: | Gui-Lin She Xin Shu |
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Affiliation: | 1. State Key Laboratory of Advanced Design and Manufacturing for Vehicle Body, Hunan University, Changsha, China;2. Department of Engineering Mechanics, College of Mechanical and Vehicle Engineering, Hunan University, Changsha, China |
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Abstract: | This article deals with the thermal buckling and postbuckling of functionally graded material (FGM) beams with surface-bonded piezoelectric actuators based on physical neutral surface concept and high-order shear deformation theory including von Kármán strain–displacement relationships. The beams are exposed to a uniform temperature field and electric field, the material properties of FGM layers are temperature-dependent and vary in the thickness direction. The approximate solutions of piezoelectric FGM beams for thermal buckling and postbuckling are obtained by a two-step perturbation method, meanwhile, the analytical solutions of Timoshenko beam model and Euler beam model are also presented. The validity of the present work can be confirmed by comparisons with previous results. The effects of the applied actuator voltage, beam geometry as well as volume fraction index of FGM beam on the critical buckling temperature, and postbuckling load–deflection relationships are investigated. |
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Keywords: | Buckling functionally graded beams high-order shear deformation theory postbuckling thermopiezoelectric |
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