Using high-order shear deformation theory in the analysis of Lamb’s waves propagation in materials reinforced with two families of fibers

The paper analyses the problem of elastic waves propagation through the material reinforced by two families of extensible fibers using high-order shear deformation theories. The material reinforced with two families of fibers can be seen as a material made of an arbitrary number of plies reinforced...

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Bibliographic Details
Published in:Acta mechanica 2017, Vol.228 (1), p.187-200
Main Authors: Radakovic, Aleksandar, Bogdanovic, Gordana, Milosavljevic, Dragan, Veljovic, Ljiljana, Cukanovic, Dragan
Format: Article
Language:English
Subjects:
Classical and Continuum Physics
Control
Dynamical Systems
Engineering
Engineering Thermodynamics
Fibers
Heat and Mass Transfer
Invariants
Lamb waves
Laminates
Materials management
Mathematical models
Matlab
Original Paper
Propagation
Shear deformation
Shear strength
Solid Mechanics
Theoretical and Applied Mechanics
Theory
Vibration
Wave power
Wave propagation
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Summary:The paper analyses the problem of elastic waves propagation through the material reinforced by two families of extensible fibers using high-order shear deformation theories. The material reinforced with two families of fibers can be seen as a material made of an arbitrary number of plies reinforced with one family of fibers, which are at angles ϕ and - ϕ , in relation to the lines of symmetry, so that it can be considered to be a composite laminate. Elasticity constants are derived using strain energy and the theory of invariants. The second-order shear deformation theory was used for creating dynamic equations of motion. Using analytical methods, dispersion curves and diagrams of phase velocities in the polar coordinate system were obtained. The emergence of quasi-modes, in the forms of quasi- bending qA , quasi-extensional qS and quasi-horizontally polarized modes qSH , was shown. The numerical part was done in MATLAB software using combinations of symbolic and numeric values.
ISSN:0001-5970
1619-6937
DOI:10.1007/s00707-016-1707-1