Vibration and buckling analyses of nanobeams embedded in an elastic medium

doi:10.1088/1674-1056/24/9/097305

Abstract

Boundary characteristic orthogonal polynomials are used as shape functions in the Rayleigh-Ritz method to investigate vibration and buckling of nanobeams embedded in an elastic medium. The present formulation is based on the nonlocal Euler-Bernoulli beam theory. The eigen value equation is developed for the buckling and vibration analyses. The orthogonal property of these polynomials makes the computation easier with less computational effort. It is observed that the frequency and critical buckling load parameters are dependent on the temperature, elastic medium, small scale coefficient, and length-to-diameter ratio. These observations are useful in the mechanical design of devices that use carbon nanotubes.

Keywords: Rayleigh-Ritz method boundary characteristic orthogonal polynomials nonlocal elasticity theory Euler-Bernoulli beam theory

Received: 14 February 2015
Revised: 23 April 2015
Accepted manuscript online:

PACS:	73.63.Fg	(Nanotubes)
	65.80.-g	(Thermal properties of small particles, nanocrystals, nanotubes, and other related systems)
	66.70.Lm	(Other systems such as ionic crystals, molecular crystals, nanotubes,etc.)
	02.60.-x	(Numerical approximation and analysis)

Corresponding Authors: S Chakraverty
E-mail: snechak@gmail.com

Cite this article:

S Chakraverty, Laxmi Behera Vibration and buckling analyses of nanobeams embedded in an elastic medium 2015 Chin. Phys. B 24 097305

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