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Single-walled nanotube system on elastic foundations and subjected to trasverse and axial loads

FROM:

Mehrdad Nasirshoaibi (1), Nader Mohammadi (1) and Masih Nasirshoaibi (2)
(1) Department of Mechanical Engineering, Islamic Azad University, Parand Branch, Tehran 3761396361, Iran
(2) Department of Mechanical Engineering, Islamic Azad University, Semnan Branch, Semnan 8965151567, Iran

“Forced transverse vibration of a closed double single-walled carbon nanotube system containing a fluid with effect of compressive axial load”, Shock and Vibration, Volume 2015, Article ID 435284, 11 pages, http://dx.doi.org/10.1155/2015/435284

ABSTRACT: Based on the Rayleigh beam theory, the forced transverse vibrations of a closed double single-walled carbon nanotube (SWCNT) system containing a fluid with a Pasternak layer in-between are investigated. It is assumed that the two single-walled carbon nanotubes of the system are continuously joined by a Pasternak layer and both sides of SWCNTs containing a fluid are closed. The dynamic responses of the system caused by arbitrarily distributed continuous loads are obtained. The effect of compressive axial load on the forced vibrations of the double single-walled carbon nanotube system is discussed for one case of particular excitation loading. The properties of the forced transverse vibrations of the system are found to be significantly dependent on the compressive axial load. The steady-state vibration amplitudes of the SWCNT decrease with increasing of length of SWCNT. Vibrations caused by the harmonic exciting forces are discussed, and conditions of resonance and dynamic vibration absorption are formulated. The SWCNT-type dynamic absorber is a new concept of a dynamic vibration absorber (DVA), which can be applied to suppress excessive vibrations of corresponding SWCNT systems.

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