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A Generic, Time-Resolved, Integrated Digital Image Correlation, Identification Approach

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Advancement of Optical Methods in Experimental Mechanics, Volume 3

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Abstract

A generic one-step Integrated Digital Image Correlation (I-DIC) inverse parameter identification approach is introduced that enables direct identification of constitutive model parameters by intimately integrating a Finite Elements Method (FEM) with Digital Image Correlation (DIC), directly connecting the complete time sequence of experimental images to the sought model parameters. The problem is cast into a transparent single-minimization formulation with explicit expression of the unknowns, being the material properties and, optionally, experimental uncertainties such as misalignments. The tight integration between FEM and DIC creates an information dialogue that yields accurate material parameters while providing necessary regularization to the DIC problem, making the method robust and noise insensitive. Through this method the versatility of the FEM method is translated to the experimental realm, simplifying the existing experiments and creating new experimental possibilities.

A convincing demonstration of the method has been achieved by successful identification of three challenging models from three very different (virtual) experiments, all thoroughly analyzed on accuracy and noise sensitivity: identification of a mixed-mode interface model from a mixed-mode delamination test, a 10-parameter history- and rate-dependent glassy polymer model from a simple tensile test, and simultaneous identification of two material models from a single bulge test of a structured membrane.

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References

  1. van Beeck J, Neggers J, Schreurs PJG, Hoefnagels JPM, Geers MGD (2013) Quantification of roughening in metal sheet stretching using global digital image correlation. Exp Mech. doi: 10.1007/s11340-013-9799-1

  2. Neggers J, Hoefnagels JPM, Hild F, Roux S, Geers MGD (2014) Direct stress–strain measurements from bulged membranes using topography image correlation. Exp Mech. doi: 10.1007/s11340-013-9832-4

  3. Neggers J, Hoefnagels JPM, Geers MGD (2012) On the validity regime of the bulge equations. J Mater Res 27(09):1245–1250

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Acknowledgements

The authors acknowledge Marc van Maris for his general support on the (in-situ) mechanical experiments in the Multi-Scale lab.

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Authors and Affiliations

  1. Department of Mechanical Engineering, Eindhoven University of Technology, Den Dolech 2, 5612AZ, Eindhoven, The Netherlands

    J. P. M. Hoefnagels, J. Neggers, Benoît Blaysat & M. G. D. Geers

  2. LMT Cachan, avenue du Préesident Wilson 61, 94235, Cachan Cedex, France

    François Hild

Authors
  1. J. P. M. Hoefnagels
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  2. J. Neggers
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  3. Benoît Blaysat
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  4. François Hild
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  5. M. G. D. Geers
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Corresponding author

Correspondence to J. P. M. Hoefnagels .

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Editors and Affiliations

  1. Sandia National Laboratories, Livermore, USA

    Helena Jin

  2. Illinois Institute of Technology, Chicago, Illinois, USA

    Cesar Sciammarella

  3. Southeastern Louisiana University, Hammond, USA

    Sanichiro Yoshida

  4. Bari, Italy

    Luciano Lamberti

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© 2015 The Society for Experimental Mechanics, Inc.

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Hoefnagels, J.P.M., Neggers, J., Blaysat, B., Hild, F., Geers, M.G.D. (2015). A Generic, Time-Resolved, Integrated Digital Image Correlation, Identification Approach. In: Jin, H., Sciammarella, C., Yoshida, S., Lamberti, L. (eds) Advancement of Optical Methods in Experimental Mechanics, Volume 3. Conference Proceedings of the Society for Experimental Mechanics Series. Springer, Cham. https://doi.org/10.1007/978-3-319-06986-9_29

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  • DOI: https://doi.org/10.1007/978-3-319-06986-9_29

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  • Publisher Name: Springer, Cham

  • Print ISBN: 978-3-319-06985-2

  • Online ISBN: 978-3-319-06986-9

  • eBook Packages: EngineeringEngineering (R0)

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