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A Fourier-series-based virtual fields method for the identification of 2-D stiffness and traction distributions

A Fourier-series-based virtual fields method for the identification of 2-D stiffness and traction distributions
A Fourier-series-based virtual fields method for the identification of 2-D stiffness and traction distributions
The virtual fields method (VFM) allows spatial distributions of material properties to be calculated from experimentally determined strain fields. A numerically efficient Fourier-series-based extension to the VFM (the F-VFM) has recently been developed, in which the unknown stiffness distribution is parameterised in the spatial frequency domain rather than in the spatial domain as used in the classical VFM. However, the boundary conditions for the F-VFM are assumed to be well-defined, whereas in practice, the traction distributions on the perimeter of the region of interest are rarely known to any degree of accuracy. In the current paper, we therefore consider how the F-VFM theory can be extended to deal with the case of unknown boundary conditions. Three different approaches are proposed; their ability to reconstruct normalised stiffness distributions and traction distributions around the perimeter from noisy input strain fields is assessed through simulations based on a forward finite element analysis. Finally, a practical example is given involving experimental strain fields from a diametral compression test on an aluminium disc.
stiffness identification, virtual fields method, fourier series, unknown boundary conditions
1475-1305
454-468
Nguyen, T.T.
e1571bf6-a5d9-4110-a429-33e280558956
Huntley, J.M.
37aa5375-200e-4128-a7e5-a2c20e0b6193
Ashcroft, I.A.
de3bf130-035f-4990-b631-a46ce23d302d
Ruiz, P.D.
ea552047-ae33-4b78-89d2-6260a5bde2d3
Pierron, F.
a1fb4a70-6f34-4625-bc23-fcb6996b79b4
Nguyen, T.T.
e1571bf6-a5d9-4110-a429-33e280558956
Huntley, J.M.
37aa5375-200e-4128-a7e5-a2c20e0b6193
Ashcroft, I.A.
de3bf130-035f-4990-b631-a46ce23d302d
Ruiz, P.D.
ea552047-ae33-4b78-89d2-6260a5bde2d3
Pierron, F.
a1fb4a70-6f34-4625-bc23-fcb6996b79b4

Nguyen, T.T., Huntley, J.M., Ashcroft, I.A., Ruiz, P.D. and Pierron, F. (2014) A Fourier-series-based virtual fields method for the identification of 2-D stiffness and traction distributions. Strain, 50 (5), 454-468. (doi:10.1111/str.12105).

Record type: Article

Abstract

The virtual fields method (VFM) allows spatial distributions of material properties to be calculated from experimentally determined strain fields. A numerically efficient Fourier-series-based extension to the VFM (the F-VFM) has recently been developed, in which the unknown stiffness distribution is parameterised in the spatial frequency domain rather than in the spatial domain as used in the classical VFM. However, the boundary conditions for the F-VFM are assumed to be well-defined, whereas in practice, the traction distributions on the perimeter of the region of interest are rarely known to any degree of accuracy. In the current paper, we therefore consider how the F-VFM theory can be extended to deal with the case of unknown boundary conditions. Three different approaches are proposed; their ability to reconstruct normalised stiffness distributions and traction distributions around the perimeter from noisy input strain fields is assessed through simulations based on a forward finite element analysis. Finally, a practical example is given involving experimental strain fields from a diametral compression test on an aluminium disc.

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More information

e-pub ahead of print date: 17 September 2014
Published date: October 2014
Keywords: stiffness identification, virtual fields method, fourier series, unknown boundary conditions
Organisations: Engineering Mats & Surface Engineerg Gp

Identifiers

Local EPrints ID: 371907
URI: http://eprints.soton.ac.uk/id/eprint/371907
DOI: doi:10.1111/str.12105
ISSN: 1475-1305
PURE UUID: f50de3e6-688e-41f8-966a-7e867c481141
ORCID for F. Pierron: ORCID iD orcid.org/0000-0003-2813-4994

Catalogue record

Date deposited: 24 Nov 2014 11:38
Last modified: 15 Mar 2024 03:35

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Contributors

Author: T.T. Nguyen
Author: J.M. Huntley
Author: I.A. Ashcroft
Author: P.D. Ruiz
Author: F. Pierron ORCID iD

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