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Microsystem Technologies

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18-07-2019 | Technical Paper

Thermal buckling and forced vibration characteristics of a porous GNP reinforced nanocomposite cylindrical shell

Authors: Farzad Ebrahimi, Davoud Hashemabadi, Mostafa Habibi, Hamed Safarpour

Published in: Microsystem Technologies | Issue 2/2020

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Abstract

In this research, thermal buckling and forced vibration characteristics of the imperfect composite cylindrical nanoshell reinforced with graphene nanoplatelets (GNP) in thermal environments are presented. Halpin–Tsai nanomechanical model is used to determine the material properties of each layer. The size-dependent effects of GNPRC nanoshell is analyzed using modified couple stress theory. For the first time, in the present study, porous functionally graded multilayer couple stress (FMCS) parameter which changes along the thickness is considered. The novelty of the current study is to consider the effects of porosity, GNPRC, FMCS and thermal environment on the resonance frequencies, thermal buckling and dynamic deflections of a nanoshell using FMCS parameter. The governing equations and boundary conditions are developed using Hamilton’s principle and solved by an analytical method. The results show that, porosity, GNP distribution pattern, modified couple stress parameter, length to radius ratio, mode number and the effect of thermal environment have an important role on the resonance frequencies, relative frequency change, thermal buckling, and dynamic deflections of the porous GNPRC cylindrical nanoshell using FMCS parameter. The results of current study can be useful in the field of materials science, micro-electro-mechanical systems and nano electromechanical systems such as microactuators and microsensors.

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Title: Thermal buckling and forced vibration characteristics of a porous GNP reinforced nanocomposite cylindrical shell
Authors: Farzad Ebrahimi
Davoud Hashemabadi
Mostafa Habibi
Hamed Safarpour
Publication date: 18-07-2019
Publisher: Springer Berlin Heidelberg
Published in: Microsystem Technologies / Issue 2/2020
Print ISSN: 0946-7076
Electronic ISSN: 1432-1858
DOI: https://doi.org/10.1007/s00542-019-04542-9

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