Flexural wave propagation in slowly varying random waveguides using a finite element approach
Flexural wave propagation in slowly varying random waveguides using a finite element approach
This work investigates structural wave propagation in waveguides with randomly varying properties along the axis of propagation, specifically when the properties vary slowly enough such that there is negligible backscattering. Wave-based methods are typically applied to homogeneous waveguides but the WKB (after Wentzel, Kramers and Brillouin) approximation can be used to find a suitable generalisation of the wave solution in terms of the change of phase and amplitude, but is restricted to analytical solutions. A wave and finite element (WFE) approach is proposed to extend the applicability of the WKB method to cases where no analytical solution is available. The wavenumber is expressed as a function of the position along the waveguide and a Gauss-Legendre quadrature scheme is used to obtain the phase change while the wave amplitude is calculated using conservation of power. The WFE method is used to evaluate the wavenumbers at each integration point. The flexural vibration example is considered with random field proprieties being expressed by a Karhunen-Loeve expansion. Results are compared to a standard FE approach and to the WKB analytical solution. They show good agreement and require only a few WFE evaluations, providing a suitable framework for spatially correlated randomness in waveguides.
1-12
Fabro, Adriano
ec8ae99f-417a-4e1e-a912-3c4cff5c11b7
Ferguson, Neil
8cb67e30-48e2-491c-9390-d444fa786ac8
Mace, Brian
cfb883c3-2211-4f3a-b7f3-d5beb9baaefe
Fabro, Adriano
ec8ae99f-417a-4e1e-a912-3c4cff5c11b7
Ferguson, Neil
8cb67e30-48e2-491c-9390-d444fa786ac8
Mace, Brian
cfb883c3-2211-4f3a-b7f3-d5beb9baaefe
Fabro, Adriano, Ferguson, Neil and Mace, Brian
(2016)
Flexural wave propagation in slowly varying random waveguides using a finite element approach.
Journal of Physics: Conference Series, .
(In Press)
Abstract
This work investigates structural wave propagation in waveguides with randomly varying properties along the axis of propagation, specifically when the properties vary slowly enough such that there is negligible backscattering. Wave-based methods are typically applied to homogeneous waveguides but the WKB (after Wentzel, Kramers and Brillouin) approximation can be used to find a suitable generalisation of the wave solution in terms of the change of phase and amplitude, but is restricted to analytical solutions. A wave and finite element (WFE) approach is proposed to extend the applicability of the WKB method to cases where no analytical solution is available. The wavenumber is expressed as a function of the position along the waveguide and a Gauss-Legendre quadrature scheme is used to obtain the phase change while the wave amplitude is calculated using conservation of power. The WFE method is used to evaluate the wavenumbers at each integration point. The flexural vibration example is considered with random field proprieties being expressed by a Karhunen-Loeve expansion. Results are compared to a standard FE approach and to the WKB analytical solution. They show good agreement and require only a few WFE evaluations, providing a suitable framework for spatially correlated randomness in waveguides.
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Accepted/In Press date: 12 August 2016
Organisations:
Dynamics Group
Identifiers
Local EPrints ID: 399568
URI: http://eprints.soton.ac.uk/id/eprint/399568
ISSN: 1742-6588
PURE UUID: cacee4a0-7177-4cde-bd3a-d691bbb995ed
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Date deposited: 19 Aug 2016 12:24
Last modified: 15 Mar 2024 05:49
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Author:
Adriano Fabro
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