2016
DOI: 10.1590/1679-78252175
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Analytical Couple-stress Solution for Size-dependent Large-amplitude Vibrations of FG Tapered-nanobeams

Abstract: In this paper, analytical couple-stress solution for size-dependent large-amplitude vibrations of FG (functionally-graded) taperednanobeams is presented. Using the modified couple-stress theory, the small scale effects are accounted for. Employing the Homotopy-Pade Analysis Method, efficient and accurate analytical expressions for the deflection and non-linear frequencies of the both single and double tapered nanobeam are presented. Very good agreement is observed between the present work results and some avai… Show more

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Cited by 8 publications
(3 citation statements)
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“…Using power-law functions to ensure a smooth distribution of stresses along the longitude direction and all the interfaces, the FG material properties are expected to vary along the axis of the beam as [36]:…”
Section: Problem Formulationmentioning
confidence: 99%
“…Using power-law functions to ensure a smooth distribution of stresses along the longitude direction and all the interfaces, the FG material properties are expected to vary along the axis of the beam as [36]:…”
Section: Problem Formulationmentioning
confidence: 99%
“…In the further work by , the authors analyzed the flapwise bending vibration response of a tapered rotating nanocantilever beam through the Eringen's nonlocal elastic theory, while using the pseudospectral collocation method based on Chebyshev polynomials to solve the problem. Based on a large parametric investigation, a pronounced sensitivity of the dynamic response was found to the nonlocal small scale, angular speed and non-uniform section of the nanocantilever.Despite the large application of nonlocal elastic theories, few works in the literature have applied the coupled stress theories (CSTs) to describe the mechanical behavior of non-uniform small scale beams [61][62][63][64], and found some closed form solutions for some particular loading and boundary conditions. This represents the main concern of the present investigation, where we propose a NMCST as higher-order continuum-based theory for the vibration size-dependent analysis of tapered composite…”
mentioning
confidence: 99%
“…Despite the large application of nonlocal elastic theories, few works in the literature have applied the coupled stress theories (CSTs) to describe the mechanical behavior of non-uniform small scale beams [61][62][63][64], and found some closed form solutions for some particular loading and boundary conditions. This represents the main concern of the present investigation, where we propose a NMCST as higher-order continuum-based theory for the vibration size-dependent analysis of tapered composite…”
mentioning
confidence: 99%