17 December 2013 Elastic stiffness characterization using three-dimensional full-field deformation obtained with optical coherence tomography and digital volume correlation
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Abstract
This paper presents a methodology for stiffness identification from depth-resolved three-dimensional (3-D) full-field deformation fields. These were obtained by performing digital volume correlation on optical coherence tomography volume reconstructions of silicone rubber phantoms. The effect of noise and reconstruction uncertainties on the performance of the correlation algorithm was first evaluated through stationary and rigid body translation tests to give an indication of the minimum strain that can be reliably measured. The phantoms were then tested under tension, and the 3-D deformation fields were used to identify the elastic constitutive parameters using a 3-D manually defined virtual fields method. The identification results for the cases of uniform and heterogeneous strain fields were compared with those calculated analytically through the constant uniaxial stress assumption, showing good agreement.
© 2013 Society of Photo-Optical Instrumentation Engineers (SPIE)
Jiawei Fu, Jiawei Fu, Fabrice Pierron, Fabrice Pierron, Pablo D. Ruiz, Pablo D. Ruiz, } "Elastic stiffness characterization using three-dimensional full-field deformation obtained with optical coherence tomography and digital volume correlation," Journal of Biomedical Optics 18(12), 121512 (17 December 2013). https://doi.org/10.1117/1.JBO.18.12.121512 . Submission:
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