Digital volume correlation using a spherical shell template and cubic element for large rotation measurement

Xiaochuan Zhang; Ge Yang; Ge Yang; Jingchen Ye; Rui Li; Peng Yang

doi:10.1364/AO.408319

Applied Optics
Vol. 59,
Issue 35,
pp. 11123-11129
(2020)
•https://doi.org/10.1364/AO.408319

Digital volume correlation using a spherical shell template and cubic element for large rotation measurement

Xiaochuan Zhang, Ge Yang, Jingchen Ye, Rui Li, and Peng Yang

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Xiaochuan Zhang, Ge Yang, Jingchen Ye, Rui Li, and Peng Yang, "Digital volume correlation using a spherical shell template and cubic element for large rotation measurement," Appl. Opt. 59, 11123-11129 (2020)

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- Instrumentation and Measurements
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About this Article
History
- Original Manuscript: August 25, 2020
- Revised Manuscript: November 22, 2020
- Manuscript Accepted: November 23, 2020
- Published: December 8, 2020

Abstract

The displacement hypothesis of eight-node cubic elements is selected as the shape function of digital volume correlation (DVC), and the Newton–Raphson iterative method is selected to solve the partial differential equation to measure the displacement field. In order to ensure that the DVC algorithm is usable under the large rotation condition, the spherical shell template matching technique is presented to perform the integer-voxel displacement searching for nodes, which can provide the optimal initial values for the Newton–Raphson iterative method due to the rotation and translation invariance of the spherical shell template. Simulated volume images are used to verify the reliability of the proposed method, and the results show that the proposed DVC method can be used to measure the deformation with an arbitrary rigid body rotation angle. This work is expected to be useful to measure deformation with large rotation of the internal structure of materials.

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Applied Optics