Three dimensional vibration and bending analysis of carbon nanotubes embedded in elastic medium based on theory of elasticity
AUTOR(ES)
Shaban, M., Alibeigloo, A.
FONTE
Lat. Am. j. solids struct.
DATA DE PUBLICAÇÃO
2014
RESUMO
This paper studies free vibration and bending behavior of singlewalled carbon nanotubes (SWCNTs) embedded on elastic medium based on three-dimensional theory of elasticity. To accounting the size effect of carbon nanotubes, non-local theory is adopted to shell model. The nonlocal parameter is incorporated into all constitutive equations in three dimensions. The surrounding medium is modeled as two-parameter elastic foundation. By using Fourier series expansion in axial and circumferential direction, the set of coupled governing equations are reduced to the ordinary differential equations in thickness direction. Then, the state-space method as an efficient and accurate method is used to solve the resulting equations analytically. Comprehensive parametric studies are carried out to show the influences of the nonlocal parameter, radial and shear elastic stiffness, thickness-to-radius ratio and radiusto-length ratio.
Documentos Relacionados
- DQ thermal buckling analysis of embedded curved carbon nanotubes based on nonlocal elasticity theory
- Thermo-mechanical vibration analysis of annular and circular graphene sheet embedded in an elastic medium
- Size-Dependent Bending, Buckling and Free Vibration Analyses of Microscale Functionally Graded Mindlin Plates Based on the Strain Gradient Elasticity Theory
- Effect of Open Crack on Vibration Behavior of a Fluid-Conveying Pipe Embedded in a Visco-Elastic Medium
- Large amplitude free vibration of micro/nano beams based on nonlocal thermal elasticity theory
