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A projection-based approach to extend digital volume correlation for 4D spacetime measurements

Viktor Kosin, Amélie Fau, Clément Jailin, Benjamin Smaniotto, Thomas Wick, François Hild

2023Comptes Rendus Mécanique14 citationsDOIOpen Access PDF

Abstract

In-situ (tomography) experiments are generally based on scans reconstructed from a large number of projections acquired under constant deformation of samples. Standard digital volume correlation (DVC) methods are based on a limited number of scans due to acquisition duration. They thus prevent analyses of time-dependent phenomena. In this paper, a modal procedure is proposed that allows time-dependent occurrences to be analyzed. It estimates spacetime displacement fields during the whole loading history. The spatial modes are based on standard DVC, which is subsequently enriched using projection-based digital volume correlation (P-DVC) to measure the temporal amplitudes. The method is applied to two cases, namely, a virtual experiment mimicking wedge splitting and an actual shear test on a pantographic metamaterial inducing large motions. With the proposed method, the temporal amplitude in the real test was measured for each projection leading to a temporal resolution of one tenth of a second and the analysis of 16,400 time steps. For the proposed algorithm, the sensitivity to the acquisition angle of the sample was investigated and measurement uncertainties were assessed.

Topics & Concepts

AmplitudeProjection (relational algebra)SpacetimeAlgorithmVolume (thermodynamics)Computer scienceMathematicsPhysicsOpticsQuantum mechanicsOptical measurement and interference techniquesStructural Health Monitoring TechniquesAdvanced MEMS and NEMS Technologies
A projection-based approach to extend digital volume correlation for 4D spacetime measurements | Litcius