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A wave finite element technique for the calculation of the flow-induced vibrations of periodic and axial-symmetric structures
The stochastic response of axial-symmetric structures, subjected to random and spatially-correlated loads, is here analysed through an approach based on the combination of a wave finite element and a transfer matrix method. Through this technique, a variable-with-the-frequency mesh
can be used in order to extend the model accuracy over the frequency limits of the classic finite element methods, increasing, at the same time, the computational speed. The presented methodology is validated for random loads, both for simple and complex structural shapes. Different flow regimes
are analysed and compared.
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Keywords: Axial; Flow; Turbulent Boundary Layer; Wave Finite Element Method; induced vibrations; symmetric structures
Document Type: Research Article
Publication date: December 1, 2018
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