Title of article
On the dynamic stability of embedded single-walled carbon nanotubes including thermal environment effects
Author/Authors
Ansari، R. نويسنده , , Gholami، M. R. نويسنده , , Sahmani، S. نويسنده ,
Issue Information
دوفصلنامه با شماره پیاپی 63 سال 2012
Pages
7
From page
919
To page
925
Abstract
Based on the nonlocal BernoulliEuler and Timoshenko beam theories, the dynamic stability of
embedded single-walled carbon nanotubes (SWCNTs) under axial compression is studied in a thermal
environment. The developed nonlocal models have the capability to interpret small scale effects.
A Winkler-type elastic foundation is employed to represent the interaction of the SWCNT and the
surrounding elastic medium. The free vibration and axial buckling of SWCNTs are discussed as subset
problems. A parametric study is conducted to investigate the influences of the static load factor,
temperature change, nonlocal elastic parameter, slenderness ratio and spring constant of the elastic
medium on the dynamic stability characteristics of the SWCNTs, with simply-supported boundary
conditions. It is found that the difference between instability regions predicted by local and nonlocal beam
theories is significant for nanotubes with lower aspect ratios. Moreover, it is observed that in contrast
to high temperature environments, at low temperatures, increasing the temperature change moves the
origins of the instability regions to higher excitation frequencies and leads to further stability of the system
at lower excitation frequencies.
Journal title
Scientia Iranica(Transactions F: Nanotechnology)
Serial Year
2012
Journal title
Scientia Iranica(Transactions F: Nanotechnology)
Record number
682847
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