Thermomechanical postbuckling behavior of CNT-reinforced composite sandwich plate models resting on elastic foundations with elastically restrained unloaded edges

Thermomechanical postbuckling behavior of CNT-reinforced composite sandwich plate models resting on elastic foundations with elastically restrained unloaded edges

Buckling and postbuckling behaviors of two models of sandwich plate reinforced by carbon nanotubes (CNTs) resting on elastic foundations and subjected to uniaxial compressive and thermomechanical loads are investigated in this paper. Material properties of all constituents are assumed to be temperat...

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Bibliographic Details
Published in:Journal of thermal stresses Vol. 42; no. 5; pp. 658 - 680
Main Authors: Long, Vu Thanh, Tung, Hoang Van
Format: Journal Article
Language:English
Published: Philadelphia Taylor & Francis 04-05-2019
Taylor & Francis Ltd
Subjects:
Boundary conditions
Buckling
Buckling and postbuckling
Carbon nanotubes
CNT-reinforced composite
Elastic foundations
Exact solutions
Galerkin method
Load
Loads (forces)
Material properties
Nonlinearity
Postbuckling
sandwich plate model
Sandwich structures
Shear deformation
tangential elastic constraint
Temperature dependence
Thermal analysis
thermomechanical loading
Thermomechanical properties
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Summary:Buckling and postbuckling behaviors of two models of sandwich plate reinforced by carbon nanotubes (CNTs) resting on elastic foundations and subjected to uniaxial compressive and thermomechanical loads are investigated in this paper. Material properties of all constituents are assumed to be temperature dependent and effective properties of CNT-reinforced composite layer are determined according to extended rule of mixture. Governing equations are established within the framework of first-order shear deformation theory taking into account von Kármán nonlinearity, initial geometrical imperfection, plate-foundation interaction and tangential elastic constraints of unloaded edges. Three types of loading are considered including uniaxial compression, preexisting thermal load combined with uniaxial compression and preexisting mechanical load combined with thermal load. Approximate analytical solutions are assumed to satisfy simply supported boundary conditions and the Galerkin method is used to derive nonlinear load-deflection relations from which buckling loads and postbuckling equilibrium paths are determined. The most important findings are that tangential constraints of unloaded edges significantly lowers buckling loads and postbuckling load capacity of sandwich plates and, in contrast, buckling loads and postbuckling strength are considerably enhanced as sandwich plate is constructed from CNT-reinforced composite core layer and homogeneous face sheets.
ISSN:0149-5739
1521-074X
DOI:10.1080/01495739.2019.1571972