Title of article :
BUCKLING AND BENDING ANALYSES OF CANTILEVER CARBON NANOTUBES USING THE EULER-BERNOULLI BEAM THEORY BASED ON NON-LOCAL CONTINUUM MODEL
Author/Authors :
Civalek, Ö. Akdeniz University - Department of Civil Engineering, Turkey , Demir, C. Akdeniz University - Department of Civil Engineering, Turkey
Abstract :
Euler-Bernoulli beam model based non-local elasticity theory is developed for the static and buckling analysis of cantilever carbon nanotubes (CNTs). The size effect is taken into consideration using the Eringen’s non-local elasticity theory. The derivation of governing equation of bending and buckling from the shear and moment resultants of the beam and stress-strain relationship of the one-dimensional non-local elasticity model is presented. Buckling and deflection values of CNTs are obtained and presented in graphical form. Numerical results are presented to show the small-scale effect on bending of CNTs.
Keywords :
Keywords: Carbon nanotubes , non , local elasticity theory , static analysis , buckling , differential quadrature
Journal title :
Asian Journal of Civil Engineering (Building and Housing)
Journal title :
Asian Journal of Civil Engineering (Building and Housing)
