An accurate one-dimensional theory for the dynamics of laminated composite curved beams

We model the dynamic behavior of laminated curved beams on the assumption that the different layers of such structures are perfectly bonded at the interface and can show different flexural rotations from one another. We formulate a mechanical theory and a finite element model accounting for bending,...

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Bibliographic Details
Published in:Journal of sound and vibration 2015-02, Vol.336, p.96-105
Main Authors: Carpentieri, Gerardo, Tornabene, Francesco, Ascione, Luigi, Fraternali, Fernando
Format: Article
Language:English
Subjects:
Beams (structural)
Curved
Curved beams
Dynamics
Mathematical analysis
Mathematical models
Shear
Vibration
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Summary:We model the dynamic behavior of laminated curved beams on the assumption that the different layers of such structures are perfectly bonded at the interface and can show different flexural rotations from one another. We formulate a mechanical theory and a finite element model accounting for bending, shear, warping and extensional deformation modes, as well as radial, tangential and rotary inertias. The main novelty of the proposed theory consists of a generalization of layer-wise displacement approaches available in literature to the dynamics of beams with finite curvature. The work includes some numerical results related to the free vibration of laminated arches and showing different support conditions and aspect ratios to establish comparisons with different theories in the literature. We observe that an accurate mechanical modeling of curved laminated beams is crucial for correct estimation of the eigenfrequencies and eigenmodes of such structures within a 1D framework. •We model composite curved beams through a layer-wise approach.•We allow the beam layers to show different rotations from one another.•The given theory is fully one-dimensional and requires reduced dofs.•Warping effects strongly affects free vibration modes.•A refined 1D theory captures the dynamics of laminated curved beams.
ISSN:0022-460X
1095-8568
DOI:10.1016/j.jsv.2014.09.041