EXACT SOLUTION AND BUCKLING CONFIGURATION OF NANOTUBES CONTAINING INTERNAL FLOWING FLUID
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Date
2013
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Abstract
In this study, the post-divergence behaviour of nanotubes of conveying internal moving fluid with both inner and outer surface layers are analyzed in nonlinear theorical model. The governing equation has the cubic nonlinearity. The source of this nonlinearity is the surface effect and mid-plane stretching in the nanobeam theory. Exact solutions for the post buckling configurations of nanotubes with clamped-hinged with torsionally spring and hybrid boundary conditions is found. The critical flow velocity at which the nanotube is buckled is shown. The effects of various nondimensional system parameters on the post-buckling behaviour are investigated.