Thermo-resonance analysis of an excited graphene sheet using a new approach

Year 2018, Volume: 10 Issue: 3, 190 - 206, 04.11.2018

Mohammad Malikan , Rossana Dimitri Francesco Tornabene

https://doi.org/10.24107/ijeas.456494

Cited By: 1

Abstract

Forced vibration of graphene
nanoplate based on a refined plate theory in conjunction with higher-order
nonlocal strain gradient theory in the thermal environment has been
investigated. Regarding the higher-order nonlocal strain gradient theory, both stress
nonlocality and size-dependent effects are taken into account, so the
equilibrium equations which are governing on the graphene sheet have been
formulated by the theory. The extracted equations will be solved by a closed-form
approach by which maximum dynamic deflection has been obtained while all the
edges are considered as simple boundaries. To approve the results of the plate
theory, several available well-known references have been compared. Finally,
after determining the accuracy of the equations, different parameters have been
examined for showing the behavior of the nanoplate exposed to a transverse dynamic
harmonic load.

Keywords

Forced vibration; A refined plate theory; Higher-order nonlocal strain gradient theory; Dynamic deflections

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