Optimised experimental characterisation of polymeric foam material using DIC and the Virtual Fields Method
Optimised experimental characterisation of polymeric foam material using DIC and the Virtual Fields Method
This article presents a methodology to optimize the design of a realistic mechanical test to characterize the material elastic stiffness parameters of an orthotropic PVC foam material in one single test. Two main experimental techniques were used in this study: Digital Image Correlation (DIC) and the Virtual Fields Method (VFM). The actual image recording process was mimicked by numerically generating a series of deformed synthetic images. Subsequent to this, the entire measurement and data processing procedure was simulated by processing the synthetic images using DIC and VFM algorithms. This procedure was used to estimate the uncertainty of the measurements (systematic and random errors) by including the most significant parameters of actual experiments, e.g. the geometric test configuration, the parameters of the DIC process and the noise. By using these parameters as design variables and by defining different error functions as object functions, an optimization study was performed to minimize the uncertainty of the material parameter identification and to select the optimal test parameters. The confidence intervals of the identified parameters were predicted based on systematic and random errors obtained from the simulations. The simulated experimental results have shown that averaging multiple images can lead to a significant reduction of the random error. An experimental determination of the elastic coefficient of a PVC foam material was conducted using the optimized test parameters obtained from the numerical study. The identified stiffness values matched well with data from previous tests but even more interesting was the fact that the experimental uncertainty intervals matched reasonably well with the predictions of the simulations, which is a highly original result and probably the main outcome of the present paper.
digital image correlation, experimental design, full-field measurements, polymeric foam, virtual fields method
59-79
Wang, P.
df957848-e6e4-45f0-ba01-2d966a30aa67
Pierron, F.
a1fb4a70-6f34-4625-bc23-fcb6996b79b4
Rossi, M.
bfeecd16-516a-414d-b97d-a4c03ca384ac
Lava, P.
66113c15-d51e-47a7-bd3e-263f25474f41
Thomsen, O.T.
f3e60b22-a09f-4d58-90da-d58e37d68047
February 2016
Wang, P.
df957848-e6e4-45f0-ba01-2d966a30aa67
Pierron, F.
a1fb4a70-6f34-4625-bc23-fcb6996b79b4
Rossi, M.
bfeecd16-516a-414d-b97d-a4c03ca384ac
Lava, P.
66113c15-d51e-47a7-bd3e-263f25474f41
Thomsen, O.T.
f3e60b22-a09f-4d58-90da-d58e37d68047
Wang, P., Pierron, F., Rossi, M., Lava, P. and Thomsen, O.T.
(2016)
Optimised experimental characterisation of polymeric foam material using DIC and the Virtual Fields Method.
Strain, 52 (1), .
(doi:10.1111/str.12170).
Abstract
This article presents a methodology to optimize the design of a realistic mechanical test to characterize the material elastic stiffness parameters of an orthotropic PVC foam material in one single test. Two main experimental techniques were used in this study: Digital Image Correlation (DIC) and the Virtual Fields Method (VFM). The actual image recording process was mimicked by numerically generating a series of deformed synthetic images. Subsequent to this, the entire measurement and data processing procedure was simulated by processing the synthetic images using DIC and VFM algorithms. This procedure was used to estimate the uncertainty of the measurements (systematic and random errors) by including the most significant parameters of actual experiments, e.g. the geometric test configuration, the parameters of the DIC process and the noise. By using these parameters as design variables and by defining different error functions as object functions, an optimization study was performed to minimize the uncertainty of the material parameter identification and to select the optimal test parameters. The confidence intervals of the identified parameters were predicted based on systematic and random errors obtained from the simulations. The simulated experimental results have shown that averaging multiple images can lead to a significant reduction of the random error. An experimental determination of the elastic coefficient of a PVC foam material was conducted using the optimized test parameters obtained from the numerical study. The identified stiffness values matched well with data from previous tests but even more interesting was the fact that the experimental uncertainty intervals matched reasonably well with the predictions of the simulations, which is a highly original result and probably the main outcome of the present paper.
Text
Revision Manuscript.pdf
- Accepted Manuscript
More information
Accepted/In Press date: 24 September 2015
e-pub ahead of print date: 6 November 2015
Published date: February 2016
Keywords:
digital image correlation, experimental design, full-field measurements, polymeric foam, virtual fields method
Organisations:
Engineering Mats & Surface Engineerg Gp
Identifiers
Local EPrints ID: 385163
URI: http://eprints.soton.ac.uk/id/eprint/385163
ISSN: 1475-1305
PURE UUID: 03ac313f-f973-4479-a383-a888fb180aa6
Catalogue record
Date deposited: 18 Jan 2016 10:04
Last modified: 15 Mar 2024 03:35
Export record
Altmetrics
Contributors
Author:
P. Wang
Author:
M. Rossi
Author:
P. Lava
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
