Estimation of random field material properties for chopped fibre composites and application to vibration modelling
Estimation of random field material properties for chopped fibre composites and application to vibration modelling
Typically there is variability in the material and geometrical properties of fibre-reinforced composites and this variability is often spatially correlated. Numerical models can predict the response of such panels, but the spatially correlated nature of the variability must be represented within the model. However, characterising spatially correlated variability is problematic. In this study, data is first generated by an automated optical process; light transmissibility measurements are taken of a dry chopped strand mat panel. The consequent image is post-processed to describe the fibre density as a random field using the Karhunen-Loeve decomposition. Previous measurements have shown a strong correlation between the density of the mat and the tensile modulus, so the information is then used to infer the statistics of the stiffness matrix in a Finite Element model. The panel is then cut into beams, from which mobility measurements provide an ensemble of measured mobility and natural frequencies. Subsequent realisations of the random field and corresponding Finite Element model are then used to predict the statistics of the vibration response of the beams and compare well with measured statistics. The method provides an automated approach to the characterisation of spatial variability and hence the prediction of the statistics vibration response.
fibre reinforcement, random fields, karhunen-loeve, vibration analysis, experimental, validation
1-12
Todorovic Fabro, A.
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Ferguson, N.S.
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Gan, J.M.
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Mace, B.R.
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Bickerton, S.
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Battley, M.
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July 2015
Todorovic Fabro, A.
80dcf4bc-f526-4071-a1d1-e3a90ca0c20f
Ferguson, N.S.
8cb67e30-48e2-491c-9390-d444fa786ac8
Gan, J.M.
23d858b1-31b2-490b-9bcb-7de951fee6ce
Mace, B.R.
cfb883c3-2211-4f3a-b7f3-d5beb9baaefe
Bickerton, S.
f8bf9ea6-5957-4af6-b097-b1d60248e5d4
Battley, M.
0e1aead0-612c-438c-999e-f847287c16c9
Todorovic Fabro, A., Ferguson, N.S., Gan, J.M., Mace, B.R., Bickerton, S. and Battley, M.
(2015)
Estimation of random field material properties for chopped fibre composites and application to vibration modelling.
Composite Structures, 125, .
(doi:10.1016/j.compstruct.2015.01.036).
Abstract
Typically there is variability in the material and geometrical properties of fibre-reinforced composites and this variability is often spatially correlated. Numerical models can predict the response of such panels, but the spatially correlated nature of the variability must be represented within the model. However, characterising spatially correlated variability is problematic. In this study, data is first generated by an automated optical process; light transmissibility measurements are taken of a dry chopped strand mat panel. The consequent image is post-processed to describe the fibre density as a random field using the Karhunen-Loeve decomposition. Previous measurements have shown a strong correlation between the density of the mat and the tensile modulus, so the information is then used to infer the statistics of the stiffness matrix in a Finite Element model. The panel is then cut into beams, from which mobility measurements provide an ensemble of measured mobility and natural frequencies. Subsequent realisations of the random field and corresponding Finite Element model are then used to predict the statistics of the vibration response of the beams and compare well with measured statistics. The method provides an automated approach to the characterisation of spatial variability and hence the prediction of the statistics vibration response.
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More information
e-pub ahead of print date: 30 January 2015
Published date: July 2015
Keywords:
fibre reinforcement, random fields, karhunen-loeve, vibration analysis, experimental, validation
Organisations:
Dynamics Group
Identifiers
Local EPrints ID: 374208
URI: http://eprints.soton.ac.uk/id/eprint/374208
ISSN: 0263-8223
PURE UUID: f6ef604c-043a-49dd-b267-96441f8faabc
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Date deposited: 10 Feb 2015 10:46
Last modified: 15 Mar 2024 02:34
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Contributors
Author:
A. Todorovic Fabro
Author:
J.M. Gan
Author:
S. Bickerton
Author:
M. Battley
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