Nonlocal vibrations of shell-type CNT conveying simultaneous internal and external flows by considering slip condition

•Analyze nonlocal vibration of shell-type CNT subject to internal and external flow.•Kn and nonlocal parameters decrease the eigen-frequencies and divergence velocity.•Kn has more contribution than nonlocality to reduce critical velocity of gas flow.•External flow reduces critical velocity of CNT co...

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Published inComputer methods in applied mechanics and engineering Vol. 272; pp. 100 - 120
Main Authors Mirramezani, Mehran, Mirdamadi, Hamid Reza, Ghayour, Mostafa
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.04.2014
Subjects
Carbon
Computational fluid dynamics
Critical flow velocity
Density
Divergence
Divergence instability
External flow
Fluid flow
Fluid–structure interaction (FSI)
Nonlocal Donnell’s shallow shell
Shells
Slip
Slip condition
Vibration
Critical flow velocity
Nonlocal Donnell’s shallow shell
Slip condition
Fluid–structure interaction (FSI)
External flow
Divergence instability
Online AccessGet full text
ISSN0045-7825
1879-2138
DOI10.1016/j.cma.2014.01.007

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Abstract •Analyze nonlocal vibration of shell-type CNT subject to internal and external flow.•Kn and nonlocal parameters decrease the eigen-frequencies and divergence velocity.•Kn has more contribution than nonlocality to reduce critical velocity of gas flow.•External flow reduces critical velocity of CNT conveying internal/external flow.•Denser external flow results in more decline in critical velocity/eigen-frequency. In this article, the nonlocal but linear vibrations of carbon nano-tubular shells are analyzed subjected to both internal and external flows. This analysis is addressed for both separate flows as well as concurrent flows by considering slip condition. We observe that both nonlocal parameter and Kn could decrease the eigen-frequency and critical velocity of the first-mode divergence. It is observed that the existence of quiescent fluid does not impress the value of divergence velocity. Nonetheless, the frequencies are declined substantially. Besides, we perceive that CNT subjected to both internal and external flows loses its stability drastically sooner as compared with that subjected to each flow separately. Furthermore, it is observed that an increase in the value of mass density of the external flow results in a greater decrease in the eigen-frequencies as well as the divergence velocity.
AbstractList In this article, the nonlocal but linear vibrations of carbon nano-tubular shells are analyzed subjected to both internal and external flows. This analysis is addressed for both separate flows as well as concurrent flows by considering slip condition. We observe that both nonlocal parameter and Kn could decrease the eigen-frequency and critical velocity of the first-mode divergence. It is observed that the existence of quiescent fluid does not impress the value of divergence velocity. Nonetheless, the frequencies are declined substantially. Besides, we perceive that CNT subjected to both internal and external flows loses its stability drastically sooner as compared with that subjected to each flow separately. Furthermore, it is observed that an increase in the value of mass density of the external flow results in a greater decrease in the eigen-frequencies as well as the divergence velocity.
•Analyze nonlocal vibration of shell-type CNT subject to internal and external flow.•Kn and nonlocal parameters decrease the eigen-frequencies and divergence velocity.•Kn has more contribution than nonlocality to reduce critical velocity of gas flow.•External flow reduces critical velocity of CNT conveying internal/external flow.•Denser external flow results in more decline in critical velocity/eigen-frequency. In this article, the nonlocal but linear vibrations of carbon nano-tubular shells are analyzed subjected to both internal and external flows. This analysis is addressed for both separate flows as well as concurrent flows by considering slip condition. We observe that both nonlocal parameter and Kn could decrease the eigen-frequency and critical velocity of the first-mode divergence. It is observed that the existence of quiescent fluid does not impress the value of divergence velocity. Nonetheless, the frequencies are declined substantially. Besides, we perceive that CNT subjected to both internal and external flows loses its stability drastically sooner as compared with that subjected to each flow separately. Furthermore, it is observed that an increase in the value of mass density of the external flow results in a greater decrease in the eigen-frequencies as well as the divergence velocity.
Author Mirramezani, Mehran
Mirdamadi, Hamid Reza
Ghayour, Mostafa
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Keywords Critical flow velocity
Nonlocal Donnell’s shallow shell
Slip condition
Fluid–structure interaction (FSI)
External flow
Divergence instability
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Snippet •Analyze nonlocal vibration of shell-type CNT subject to internal and external flow.•Kn and nonlocal parameters decrease the eigen-frequencies and divergence...
In this article, the nonlocal but linear vibrations of carbon nano-tubular shells are analyzed subjected to both internal and external flows. This analysis is...
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SubjectTerms Carbon
Computational fluid dynamics
Critical flow velocity
Density
Divergence
Divergence instability
External flow
Fluid flow
Fluid–structure interaction (FSI)
Nonlocal Donnell’s shallow shell
Shells
Slip
Slip condition
Vibration
Title Nonlocal vibrations of shell-type CNT conveying simultaneous internal and external flows by considering slip condition
URI https://dx.doi.org/10.1016/j.cma.2014.01.007
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https://www.proquest.com/docview/1677943089
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