Free vibration analysis of functionally graded beams with non-uniform cross-section using the differential transform method
Free vibration analysis of functionally graded beams with non-uniform cross-section using the differential transform method
Free vibrations of non-uniform cross-section and axially functionally graded Euler-Bernoulli beams with various boundary conditions were studied using the differential transform method. The method was applied to a variety of beam configurations that are either axially non-homogeneous or geometrically non-uniform along the beam length or both. The governing equation of an Euler-Bernoulli beam with variable coefficients was reduced to a set of simpler algebraic recurrent equations by means of the differential transformations. Then, transverse natural frequencies were determined by requiring the non-trivial solution of the eigenvalue problem stated for a transformed function of the transverse displacement with appropriately transformed its high derivatives and boundary conditions. To show the generality and effectiveness of this approach, natural frequencies of various beams with variable cross-section and functionally graded non-homogeneity profiles were calculated and compared with analytical and numerical results available in the literature. The benefit of the differential transform method to solve eigenvalue problems for beams with arbitrary axial geometrical non-uniformities and axial material gradient profiles is clearly demonstrated.
free vibrations, non-uniform cross-section beam, Functionally graded material, differential transform method
Ghazaryan, Davit
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Burlayenko, Vyacheslav
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Avetisyan, Armine
69ce8fe3-68be-4ab0-900f-8300c9361f95
Bhaskar, Atul
d4122e7c-5bf3-415f-9846-5b0fed645f3e
Ghazaryan, Davit
fc079c3a-6aa0-4d22-8e2d-69d455eb8f98
Burlayenko, Vyacheslav
4e3e1215-0211-4bd7-aca8-f4b42f9a9ca6
Avetisyan, Armine
69ce8fe3-68be-4ab0-900f-8300c9361f95
Bhaskar, Atul
d4122e7c-5bf3-415f-9846-5b0fed645f3e
Ghazaryan, Davit, Burlayenko, Vyacheslav, Avetisyan, Armine and Bhaskar, Atul
(2017)
Free vibration analysis of functionally graded beams with non-uniform cross-section using the differential transform method.
Journal of Engineering Mathematics.
(doi:10.1007/s10665-017-9937-3).
Abstract
Free vibrations of non-uniform cross-section and axially functionally graded Euler-Bernoulli beams with various boundary conditions were studied using the differential transform method. The method was applied to a variety of beam configurations that are either axially non-homogeneous or geometrically non-uniform along the beam length or both. The governing equation of an Euler-Bernoulli beam with variable coefficients was reduced to a set of simpler algebraic recurrent equations by means of the differential transformations. Then, transverse natural frequencies were determined by requiring the non-trivial solution of the eigenvalue problem stated for a transformed function of the transverse displacement with appropriately transformed its high derivatives and boundary conditions. To show the generality and effectiveness of this approach, natural frequencies of various beams with variable cross-section and functionally graded non-homogeneity profiles were calculated and compared with analytical and numerical results available in the literature. The benefit of the differential transform method to solve eigenvalue problems for beams with arbitrary axial geometrical non-uniformities and axial material gradient profiles is clearly demonstrated.
Text
Free vibration analysis
- Accepted Manuscript
More information
Accepted/In Press date: 12 August 2017
e-pub ahead of print date: 8 November 2017
Keywords:
free vibrations, non-uniform cross-section beam, Functionally graded material, differential transform method
Identifiers
Local EPrints ID: 413659
URI: http://eprints.soton.ac.uk/id/eprint/413659
ISSN: 0022-0833
PURE UUID: df23745f-7e01-445b-bb66-560a0907afaf
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Date deposited: 31 Aug 2017 16:31
Last modified: 16 Mar 2024 05:41
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Contributors
Author:
Davit Ghazaryan
Author:
Vyacheslav Burlayenko
Author:
Armine Avetisyan
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