Free vibration analysis of rotating functionally graded CNT reinforced composite cylindrical shells with arbitrary boundary conditions

In this paper, a general approach is provided for the free vibration analysis of rotating functionally graded carbon nanotube reinforced composite (FG-CNTRC) cylindrical shells with arbitrary boundary conditions. General formulations are derived based on the first-order shear deformation theory, the...

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Bibliographic Details
Published inComposite structures Vol. 220; pp. 847 - 860
Main Authors Qin, Zhaoye, Pang, Xuejia, Safaei, Babak, Chu, Fulei
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 15.07.2019
Subjects
Chebyshev-Ritz method
Coriolis and centrifugal effects
Functionally graded carbon nanotube reinforced composite
Rotating cylindrical shell
Vibration analysis
Rotating cylindrical shell
Functionally graded carbon nanotube reinforced composite
Vibration analysis
Coriolis and centrifugal effects
Chebyshev-Ritz method
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Abstract In this paper, a general approach is provided for the free vibration analysis of rotating functionally graded carbon nanotube reinforced composite (FG-CNTRC) cylindrical shells with arbitrary boundary conditions. General formulations are derived based on the first-order shear deformation theory, the Donnell-type kinematic assumptions, and the artificial spring technique. Coriolis and centrifugal effects due to rotation are taken into account in the shell model. By employing Chebyshev polynomials as admissible functions, the Rayleigh-Ritz method is employed to derive the equations of motion for rotating FG-CNTRC cylindrical shells. The approach proposed is validated by comparing the present results with those reported in literature. The traveling wave motions of rotating FG-CNTRC shells are investigated. The effects of geometric parameters, volume fraction of carbon nanotubes, and boundary conditions on shell vibrations are also evaluated.
AbstractList In this paper, a general approach is provided for the free vibration analysis of rotating functionally graded carbon nanotube reinforced composite (FG-CNTRC) cylindrical shells with arbitrary boundary conditions. General formulations are derived based on the first-order shear deformation theory, the Donnell-type kinematic assumptions, and the artificial spring technique. Coriolis and centrifugal effects due to rotation are taken into account in the shell model. By employing Chebyshev polynomials as admissible functions, the Rayleigh-Ritz method is employed to derive the equations of motion for rotating FG-CNTRC cylindrical shells. The approach proposed is validated by comparing the present results with those reported in literature. The traveling wave motions of rotating FG-CNTRC shells are investigated. The effects of geometric parameters, volume fraction of carbon nanotubes, and boundary conditions on shell vibrations are also evaluated.
Author Pang, Xuejia
Chu, Fulei
Qin, Zhaoye
Safaei, Babak
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– sequence: 2
  givenname: Xuejia
  surname: Pang
  fullname: Pang, Xuejia
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  givenname: Babak
  surname: Safaei
  fullname: Safaei, Babak
  organization: State Key Laboratory of Tribology, Department of Mechanical Engineering, Tsinghua University, Beijing, China
– sequence: 4
  givenname: Fulei
  surname: Chu
  fullname: Chu, Fulei
  organization: State Key Laboratory of Tribology, Department of Mechanical Engineering, Tsinghua University, Beijing, China
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Keywords Rotating cylindrical shell
Functionally graded carbon nanotube reinforced composite
Vibration analysis
Coriolis and centrifugal effects
Chebyshev-Ritz method
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Snippet In this paper, a general approach is provided for the free vibration analysis of rotating functionally graded carbon nanotube reinforced composite (FG-CNTRC)...
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elsevier
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SubjectTerms Chebyshev-Ritz method
Coriolis and centrifugal effects
Functionally graded carbon nanotube reinforced composite
Rotating cylindrical shell
Vibration analysis
Title Free vibration analysis of rotating functionally graded CNT reinforced composite cylindrical shells with arbitrary boundary conditions
URI https://dx.doi.org/10.1016/j.compstruct.2019.04.046
Volume 220
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