Wave propagation in one-dimensional waveguides with slowly varying random spatially correlated variability
Wave propagation in one-dimensional waveguides with slowly varying random spatially correlated variability
This paper investigates structural wave propagation in waveguides with randomly varying material and geometrical properties along the axis of propagation. More specifically, it is assumed that the properties vary slowly enough such that there is no or negligible backscattering due to any changes in the propagation medium. This variability plays a significant role in the so called mid-frequency region for dynamics and vibration, but wave-based methods are typically only applicable to homogeneous and uniform waveguides. The WKB approximation is used to find a suitable generalization of the wave solutions for finite waveguides undergoing longitudinal and flexural motion. An alternative wave formulation approximation with piecewise constant properties is also derived and included, so that the internal reflections are taken into account, but this requires a discretization of the waveguide. Moreover, a Fourier like series, the Karhunen–Loeve expansion, is used to represent homogeneous and spatially correlated randomness and subsequently the wave propagation approach allows the statistics of the natural frequencies and the forced response to be derived. Experimental validation is presented using a cantilever beam whose mass per unit length is randomized by adding small discrete masses to an otherwise uniform beam. It is shown how the correlation length of the random material properties affects the natural frequency statistics and comparison with the predictions using the WKB approach is given.
Todorovic Fabro, Adriano
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Ferguson, N.S.
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Mace, B.R.
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Jain, Tarun
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Halkyard, Roger
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Todorovic Fabro, Adriano
a184cc3b-5eb6-4e00-ab7d-2fedf8041b63
Ferguson, N.S.
8cb67e30-48e2-491c-9390-d444fa786ac8
Mace, B.R.
681dd501-6313-441d-86e6-20a90fada824
Jain, Tarun
3e189f3b-5c0b-422a-8906-aa81a5a96fc8
Halkyard, Roger
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Todorovic Fabro, Adriano, Ferguson, N.S., Mace, B.R., Jain, Tarun and Halkyard, Roger
(2015)
Wave propagation in one-dimensional waveguides with slowly varying random spatially correlated variability.
Journal of Sound and Vibration.
(doi:10.1016/j.jsv.2015.01.013).
Abstract
This paper investigates structural wave propagation in waveguides with randomly varying material and geometrical properties along the axis of propagation. More specifically, it is assumed that the properties vary slowly enough such that there is no or negligible backscattering due to any changes in the propagation medium. This variability plays a significant role in the so called mid-frequency region for dynamics and vibration, but wave-based methods are typically only applicable to homogeneous and uniform waveguides. The WKB approximation is used to find a suitable generalization of the wave solutions for finite waveguides undergoing longitudinal and flexural motion. An alternative wave formulation approximation with piecewise constant properties is also derived and included, so that the internal reflections are taken into account, but this requires a discretization of the waveguide. Moreover, a Fourier like series, the Karhunen–Loeve expansion, is used to represent homogeneous and spatially correlated randomness and subsequently the wave propagation approach allows the statistics of the natural frequencies and the forced response to be derived. Experimental validation is presented using a cantilever beam whose mass per unit length is randomized by adding small discrete masses to an otherwise uniform beam. It is shown how the correlation length of the random material properties affects the natural frequency statistics and comparison with the predictions using the WKB approach is given.
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Accepted/In Press date: 17 January 2015
e-pub ahead of print date: 7 February 2015
Organisations:
Dynamics Group
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Local EPrints ID: 374203
URI: http://eprints.soton.ac.uk/id/eprint/374203
ISSN: 0022-460X
PURE UUID: 7ebdba3c-8461-42ff-9787-eb7a7539cdeb
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Date deposited: 10 Feb 2015 10:42
Last modified: 15 Mar 2024 02:34
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Contributors
Author:
Adriano Todorovic Fabro
Author:
B.R. Mace
Author:
Tarun Jain
Author:
Roger Halkyard
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