On vibrations of porous nanotubes

In this study, the vibration behaviors of porous nanotubes are investigated for the first time. The nonlocal strain gradient theory in conjunction with a refined beam model are employed to formulate the size-dependent model. It is presumed that the porous nanotubes are made from functionally graded...

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Veröffentlicht in:	International journal of engineering science 2018-04, Vol.125, p.23-35
Hauptverfasser:	She, Gui-Lin, Ren, Yi-Ru, Yuan, Fuh-Gwo, Xiao, Wan-Shen
Format:	Artikel
Sprache:	eng
Schlagworte:	Beam theory (structures) Deformation effects Equations of motion Functionally graded materials Functionally gradient materials Mathematical models Nanotubes Navier solution Nonlocal strain gradient theory Parameters Porosity Porous material Porous materials Shear deformation Vibration
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container_title	International journal of engineering science
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creator	She, Gui-Lin Ren, Yi-Ru Yuan, Fuh-Gwo Xiao, Wan-Shen
description	In this study, the vibration behaviors of porous nanotubes are investigated for the first time. The nonlocal strain gradient theory in conjunction with a refined beam model are employed to formulate the size-dependent model. It is presumed that the porous nanotubes are made from functionally graded materials, and the material parameters of nanotubes relate to temperature variation and vary continuously in the radial direction. Employing a refined beam theory which includes the effects of transverse shear deformation, the equations of motion are derived based on Hamilton's variation principle and solved by the Navier solution method. Some comparisons are presented to valid the correctness of present solution method. The effects of the nonlocal parameter, strain gradient parameter, temperature variations, porosity volume fraction and material variation on the vibration characteristic of the nanotubes are discussed in detail.
doi_str_mv	10.1016/j.ijengsci.2017.12.009
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subjects	Beam theory (structures) Deformation effects Equations of motion Functionally graded materials Functionally gradient materials Mathematical models Nanotubes Navier solution Nonlocal strain gradient theory Parameters Porosity Porous material Porous materials Shear deformation Vibration
title	On vibrations of porous nanotubes
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