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Main Authors: Guo, Yinhui, Zhou, XinDa, Li, Jie, Ba, Rongsheng, Zheng, YinBo, Chai, Liqun
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2403.16390
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author Guo, Yinhui
Zhou, XinDa
Li, Jie
Ba, Rongsheng
Zheng, YinBo
Chai, Liqun
author_facet Guo, Yinhui
Zhou, XinDa
Li, Jie
Ba, Rongsheng
Zheng, YinBo
Chai, Liqun
contents This paper proposed a novel and temporal phase-shift digital shearography system for simultaneous measurement of first order displacement derivative in orthogonal shear directions. Dual lasers with wavelengths of 532nm and 637nm, three splitter prism structure, two dichroic mirrors with different response wavelength, and the color CMOS are used in the system. Two dichroic mirrors can be used as shear mirrors to realize shear in orthogonal directions at the same time. The system realizes the measurement of the first-order displacement derivative information in the orthogonal direction of the round metal aluminum plate of diameter 250mm. The experimental results show that the overall displacement integral PV error in the x and y directions is 2.7%-14.8%, which verified the reliability of the system.
format Preprint
id arxiv_https___arxiv_org_abs_2403_16390
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Measurement of Out-of-Plane first-order Displacement Derivatives in Orthogonal shear directions Using Dichroic Mirrors
Guo, Yinhui
Zhou, XinDa
Li, Jie
Ba, Rongsheng
Zheng, YinBo
Chai, Liqun
Optics
This paper proposed a novel and temporal phase-shift digital shearography system for simultaneous measurement of first order displacement derivative in orthogonal shear directions. Dual lasers with wavelengths of 532nm and 637nm, three splitter prism structure, two dichroic mirrors with different response wavelength, and the color CMOS are used in the system. Two dichroic mirrors can be used as shear mirrors to realize shear in orthogonal directions at the same time. The system realizes the measurement of the first-order displacement derivative information in the orthogonal direction of the round metal aluminum plate of diameter 250mm. The experimental results show that the overall displacement integral PV error in the x and y directions is 2.7%-14.8%, which verified the reliability of the system.
title Measurement of Out-of-Plane first-order Displacement Derivatives in Orthogonal shear directions Using Dichroic Mirrors
topic Optics
url https://arxiv.org/abs/2403.16390