R. D. Firouz-Abadi, M. M. Fotouhi, M. R. Permoon and H. Haddadpour
The Journal of Mechanical Science and Technology, vol. 26, no. 2, pp.563-573, 2012

Abstract : The small-scale effect on the natural frequencies and buckling of pressurized nanotubes is investigated in this study. Based on the firstorder shear deformable shell theory, the nonlocal theory of elasticity is used to account for the small-scale effect and the governing equations of motion are obtained. Applying modal analysis technique and based on Galerkin's method a procedure is proposed to obtain natural frequencies of vibrations. For the case of nanotubes with simply supported boundary conditions, explicit expressions are obtained which establish the dependency of the natural frequencies and buckling loads of the nanotube on the small-scale parameter and natural frequencies obtained by local continuum mechanics. The obtained solutions generalize the results of nano-bar and -beam models and are verified by the literature. Based on several numerical studies some conclusions are drawn about the small-scale effect on the natural frequencies and buckling pressure of the nanotubes.

Keyword : Pressurized nanotube; Natural frequencies; Buckling; Shear deformable shell; Nonlocal elasticity