Book ChapterDOI
Nonlinear forced flexural vibration of anisotropic composite material symmetrically laminated plates
Li Hua
- Vol. 3, pp 387-392
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TLDR
In this paper, the geometric nonlinear forced flexural vibration of anisotropic composite material symmetrically laminated plates under the harmonic force was discussed and an analysis of the complete solution analysis process including computing examples was presented.Abstract:
In this paper, the author discusses the geometric nonlinear forced flexural vibration of anisotropic composite material symmetrically laminated plates under the harmonic force, makes an analysis of the complete solution analysis process including computing examples, obtains the illustrative amplitude-frequency relationships of the laminated plates with different ply-direction angles and under the load of different magnitude and especially analyzes the effect of the ply-direction angle of the symmetrically laminated plates on the amplitude-frequency relationships of nonlinear forced vibration of the platesread more
Citations
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Nonlinear Forced Vibration of an Unsymmetrically Laminated Composite Beam
TL;DR: In this article, the nonlinear forced vibration of an unsymmertically laminated composite beam was studied and the resulting equations were transformed into nonlinear ODEs by means of the Galerkin method.
Nonlinear Analysis of Composite Beams under Random Excitations
TL;DR: Gudmundsson et al. as discussed by the authors analyzed the vibration responses of three unsymmetrically laminated beams, that are excited with a Gaussian random forcing function, and found that the results were in a close agreement, although some discrepancies at high loads could be found.
References
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Nonlinear Forced Vibration of an Unsymmetrically Laminated Composite Beam
TL;DR: In this article, the nonlinear forced vibration of an unsymmertically laminated composite beam was studied and the resulting equations were transformed into nonlinear ODEs by means of the Galerkin method.
Nonlinear Analysis of Composite Beams under Random Excitations
TL;DR: Gudmundsson et al. as discussed by the authors analyzed the vibration responses of three unsymmetrically laminated beams, that are excited with a Gaussian random forcing function, and found that the results were in a close agreement, although some discrepancies at high loads could be found.