Hygrothermal effects on vibration characteristics of viscoelastic FG nanobeams based on nonlocal strain gradient theory

This paper investigates damping vibration characteristics of hygro-thermally affected functionally graded (FG) viscoelastic nanobeams embedded in viscoelastic foundation based on nonlocal strain gradient elasticity theory. The modeling of nanobeam is carried out via a higher order refined beam theor...

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Bibliographic Details
Published inComposite structures Vol. 159; pp. 433 - 444
Main Authors Ebrahimi, Farzad, Barati, Mohammad Reza
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.01.2017
Subjects
Damping vibration
FG nanobeam
Foundations
Functionally gradient materials
Hygro-thermal loading
Mathematical models
Nanostructure
Nonlocal strain gradient elasticity
Shear
Strain
Vibration
Visco-Pasternak foundation
Viscoelasticity
FG nanobeam
Damping vibration
Nonlocal strain gradient elasticity
Visco-Pasternak foundation
Hygro-thermal loading
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Abstract This paper investigates damping vibration characteristics of hygro-thermally affected functionally graded (FG) viscoelastic nanobeams embedded in viscoelastic foundation based on nonlocal strain gradient elasticity theory. The modeling of nanobeam is carried out via a higher order refined beam theory which captures shear deformation influences needless of any shear correction factor. The viscoelastic foundation is consists of Winkler-Pasternak layer together with a viscous layer of infinite parallel dashpots. Power-law model is adopted to describe continuous variation of temperature-dependent material properties of FG nanobeam. The governing equations of nonlocal strain gradient viscoelastic nanobeam in the framework of refined beam theory are obtained using Hamilton’s principle and solved implementing an analytical solution for different boundary conditions. To validate the presented model, the results are compared with those of elastic nanobeams. The effects of linear, shear and viscous layers of foundation, structural damping coefficient, hygro-thermal environment, nonlocal parameter, material characteristic parameter, power-law exponent, mode number, boundary conditions and slenderness ratio on the frequency response of viscoelastic FG nanobeams are investigated.
AbstractList This paper investigates damping vibration characteristics of hygro-thermally affected functionally graded (FG) viscoelastic nanobeams embedded in viscoelastic foundation based on nonlocal strain gradient elasticity theory. The modeling of nanobeam is carried out via a higher order refined beam theory which captures shear deformation influences needless of any shear correction factor. The viscoelastic foundation is consists of Winkler-Pasternak layer together with a viscous layer of infinite parallel dashpots. Power-law model is adopted to describe continuous variation of temperature-dependent material properties of FG nanobeam. The governing equations of nonlocal strain gradient viscoelastic nanobeam in the framework of refined beam theory are obtained using Hamilton’s principle and solved implementing an analytical solution for different boundary conditions. To validate the presented model, the results are compared with those of elastic nanobeams. The effects of linear, shear and viscous layers of foundation, structural damping coefficient, hygro-thermal environment, nonlocal parameter, material characteristic parameter, power-law exponent, mode number, boundary conditions and slenderness ratio on the frequency response of viscoelastic FG nanobeams are investigated.
Author Ebrahimi, Farzad
Barati, Mohammad Reza
Author_xml – sequence: 1
  givenname: Farzad
  surname: Ebrahimi
  fullname: Ebrahimi, Farzad
  email: febrahimy@eng.ikiu.ac.ir
  organization: Department of Mechanical Engineering, Faculty of Engineering, Imam Khomeini International University, Qazvin, Iran
– sequence: 2
  givenname: Mohammad Reza
  surname: Barati
  fullname: Barati, Mohammad Reza
  organization: Department of Aerospace Engineering and Center of Excellence in Computational Aerospace Engineering, Amirkabir University of Technology, Tehran, Iran
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Keywords FG nanobeam
Damping vibration
Nonlocal strain gradient elasticity
Visco-Pasternak foundation
Hygro-thermal loading
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Snippet This paper investigates damping vibration characteristics of hygro-thermally affected functionally graded (FG) viscoelastic nanobeams embedded in viscoelastic...
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SubjectTerms Damping vibration
FG nanobeam
Foundations
Functionally gradient materials
Hygro-thermal loading
Mathematical models
Nanostructure
Nonlocal strain gradient elasticity
Shear
Strain
Vibration
Visco-Pasternak foundation
Viscoelasticity
Title Hygrothermal effects on vibration characteristics of viscoelastic FG nanobeams based on nonlocal strain gradient theory
URI https://dx.doi.org/10.1016/j.compstruct.2016.09.092
https://www.proquest.com/docview/1855391700
Volume 159
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