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Size dependent flapwise vibration analysis of rotating two-directional functionally graded sandwich porous microbeams based on a transverse shear and normal deformation theory

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dc.contributor.authorKaramanli, Armagan Fatih
dc.contributor.authorAydogdu, Metin
dc.contributor.institutionKaramanli, Armagan Fatih, Department of Mechanical Engineering, Bahçeşehir Üniversitesi, Istanbul, Turkey
dc.contributor.institutionAydogdu, Metin, Department of Mechanical Engineering, Trakya Üniversitesi, Edirne, Turkey
dc.date.accessioned2025-10-05T15:57:17Z
dc.date.issued2019
dc.description.abstractWithin this study, the free vibration behavior of rotating two-directional functionally graded porous sandwich microbeams is studied based on the modified couple stress theory by employing a transverse shear-normal deformation beam theory. The effects of the thickness to material length scale parameter accompanying with the porosity volume fraction coefficient, boundary condition, aspect ratio, hub ratio, dimensionless rotation speed and gradient index on the dimensionless fundamental frequencies of the two-directional functionally graded porous sandwich microbeams are investigated. It is found that the dimensionless fundamental frequencies are significantly affected by the variation of the thickness to material length scale parameter, hub ratio, dimensionless rotation speed and porosity volume fraction coefficient. The normal deformation effect is very important especially while the variations of the dimensionless rotation speed, hub ratio and gradient index are considered. Moreover, the mode shapes of the rotating two-directional functionally graded porous sandwich microbeams are also influenced with respect to the variation of the porosity volume fraction coefficient. As a result, the optimum design of the microstructures accompanying with the lightweight and low-cost objectives can be achieved by controlling the material and porosity distribution through the body of the microstructure. © 2019 Elsevier B.V., All rights reserved.
dc.identifier.doi10.1016/j.ijmecsci.2019.05.047
dc.identifier.endpage181
dc.identifier.isbn0080311369
dc.identifier.issn00207403
dc.identifier.scopus2-s2.0-85066451177
dc.identifier.startpage165
dc.identifier.urihttps://doi.org/10.1016/j.ijmecsci.2019.05.047
dc.identifier.urihttps://hdl.handle.net/20.500.14719/11022
dc.identifier.volume159
dc.language.isoen
dc.publisherElsevier Ltd
dc.relation.sourceInternational Journal of Mechanical Sciences
dc.subject.authorkeywordsMaterial Length Scale Parameter
dc.subject.authorkeywordsNormal Deformation
dc.subject.authorkeywordsPorosity
dc.subject.authorkeywordsRotation And Vibration
dc.subject.authorkeywordsSandwich Microbeam
dc.subject.authorkeywordsAspect Ratio
dc.subject.authorkeywordsDeformation
dc.subject.authorkeywordsMicrostructure
dc.subject.authorkeywordsNatural Frequencies
dc.subject.authorkeywordsPorosity
dc.subject.authorkeywordsRotation
dc.subject.authorkeywordsVolume Fraction
dc.subject.authorkeywordsWeldability
dc.subject.authorkeywordsFree Vibration Behavior
dc.subject.authorkeywordsFunctionally Graded
dc.subject.authorkeywordsFundamental Frequencies
dc.subject.authorkeywordsMaterial Length Scale
dc.subject.authorkeywordsMicro Beams
dc.subject.authorkeywordsModified Couple Stress Theories
dc.subject.authorkeywordsNormal Deformations
dc.subject.authorkeywordsPorosity Distributions
dc.subject.authorkeywordsVibration Analysis
dc.subject.indexkeywordsAspect ratio
dc.subject.indexkeywordsDeformation
dc.subject.indexkeywordsMicrostructure
dc.subject.indexkeywordsNatural frequencies
dc.subject.indexkeywordsPorosity
dc.subject.indexkeywordsRotation
dc.subject.indexkeywordsVolume fraction
dc.subject.indexkeywordsWeldability
dc.subject.indexkeywordsFree vibration behavior
dc.subject.indexkeywordsFunctionally graded
dc.subject.indexkeywordsFundamental frequencies
dc.subject.indexkeywordsMaterial length scale
dc.subject.indexkeywordsMicro beams
dc.subject.indexkeywordsModified couple stress theories
dc.subject.indexkeywordsNormal deformations
dc.subject.indexkeywordsPorosity distributions
dc.subject.indexkeywordsVibration analysis
dc.titleSize dependent flapwise vibration analysis of rotating two-directional functionally graded sandwich porous microbeams based on a transverse shear and normal deformation theory
dc.typeArticle
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dspace.entity.typePublication
local.indexed.atScopus
person.identifier.scopus-author-id55659970400
person.identifier.scopus-author-id8078531800

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