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AuthorHadji, Lazreg
AuthorPlevris, Vagelis
AuthorMadan, Royal
AuthorAit Atmane, Hassen
Available date2024-10-02T05:59:50Z
Publication Date2024
Publication NameComputation
ResourceScopus
ISSN20793197
URIhttp://dx.doi.org/10.3390/computation12040065
URIhttp://hdl.handle.net/10576/59667
AbstractThis study conducts buckling and free vibration analyses of multi-directional functionally graded sandwich plates subjected to various boundary conditions. Two scenarios are considered: a functionally graded (FG) skin with a homogeneous hard core, and an FG skin with a homogeneous soft core. Utilizing refined plate models, which incorporate a parabolic distribution of transverse shear stresses while ensuring zero shear stresses on both the upper and lower surfaces, equations of motion are derived using Hamilton's principle. Analytical solutions for the buckling and free vibration analyses of multi-directional FG sandwich plates under diverse boundary conditions are developed and presented. The obtained results are validated against the existing literature for both the buckling and free vibration analyses. The composition of metal-ceramic-based FG materials varies longitudinally and transversely, following a power law. Various types of sandwich plates are considered, accounting for plate symmetry and layer thicknesses. This investigation explores the influence of several parameters on buckling and free vibration behaviors.
Languageen
PublisherMDPI
Subjectbuckling
free vibration
hard core
multi-directional FGM
soft core
TitleMulti-Directional Functionally Graded Sandwich Plates: Buckling and Free Vibration Analysis with Refined Plate Models under Various Boundary Conditions
TypeArticle
Issue Number4
Volume Number12
dc.accessType Open Access


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