Differential Quadrature Method for Dynamic Buckling of Graphene Sheet Coupled by a Viscoelastic Medium Using Neperian Frequency Based on Nonlocal Elasticity Theory - Publication - Bridge of Knowledge

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Differential Quadrature Method for Dynamic Buckling of Graphene Sheet Coupled by a Viscoelastic Medium Using Neperian Frequency Based on Nonlocal Elasticity Theory

Abstract

In the present study, the dynamic buckling of the graphene sheet coupled by a viscoelastic matrix was studied. In light of the simplicity of Eringen's non-local continuum theory to considering the nanoscale influences, this theory was employed. Equations of motion and boundary conditions were obtained using Mindlin plate theory by taking nonlinear strains of von Kármán and Hamilton's principle into account. On the other hand, a viscoelastic matrix was modeled as a three-parameter foundation. Furthermore, the differential quadrature method was applied by which the critical load was obtained. Finally, since there was no research available for the dynamic buckling of a nanoplate, the static buckling was taken into consideration to compare the results and explain some significant and novel findings. One of these results showed that for greater values of the nanoscale parameter, the small scale had further influences on the dynamic buckling.

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Details

Category:
Articles
Type:
artykuły w czasopismach
Published in:
Journal of Applied and Computational Mechanics no. 4, pages 147 - 160,
ISSN: 2383-4536
Language:
English
Publication year:
2018
Bibliographic description:
Malikan M., Sadraee Far M.: Differential Quadrature Method for Dynamic Buckling of Graphene Sheet Coupled by a Viscoelastic Medium Using Neperian Frequency Based on Nonlocal Elasticity Theory// Journal of Applied and Computational Mechanics -,iss. 3 (2018), s.147-160
DOI:
Digital Object Identifier (open in new tab) 10.22055/jacm.2017.22661.1138
Sources of funding:
  • Free publication
Verified by:
Gdańsk University of Technology

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