Out-of-plane motion and non-perpendicular alignment compensation for 2D-DIC based on cross-shaped structured light
Although the 3D-DIC method has matured both theoretically and technically, the 2D-DIC method still plays an important role in in-plane deformation measurements. However, the accuracy of 2D-DIC is affected by out-of-plane motion (including out-of-plane translation and out-of-plane rotation) and non-p...
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sg-ntu-dr.10356-1547992022-01-10T01:39:03Z Out-of-plane motion and non-perpendicular alignment compensation for 2D-DIC based on cross-shaped structured light Wang, Lianpo Chen, Yuangang Hui, Li Qian, Kemao Gu, Yonggang Chao, Zhai School of Computer Science and Engineering Engineering::Computer science and engineering Digital Image Correlation Out-Of-Plane Motion Although the 3D-DIC method has matured both theoretically and technically, the 2D-DIC method still plays an important role in in-plane deformation measurements. However, the accuracy of 2D-DIC is affected by out-of-plane motion (including out-of-plane translation and out-of-plane rotation) and non-perpendicular alignment. To tackle this problem, we propose to directly measure these unfavorable error sources by cross-shaped structured light (CSSL) and the optical triangulation method. Subsequently, pseudo-strains are calculated and compensated using an integrated mathematical model developed in this paper. To avoid mutual interference between the structured light strips and the speckle image, color coding is also proposed to use different color information for 2D-DIC processing and error compensation. Experiments with controlled out-of-the-plane motions show that the mean error after compensation can be as small as 50με. Uniaxial tension tests were also conducted to verify the feasibility of the proposed method in the real material parameter estimation experiment. This work was supported by the China Scholarship Council (grant nos. 201906340036). 2022-01-10T01:39:02Z 2022-01-10T01:39:02Z 2020 Journal Article Wang, L., Chen, Y., Hui, L., Qian, K., Gu, Y. & Chao, Z. (2020). Out-of-plane motion and non-perpendicular alignment compensation for 2D-DIC based on cross-shaped structured light. Optics and Lasers in Engineering, 134, 106148-. https://dx.doi.org/10.1016/j.optlaseng.2020.106148 0143-8166 https://hdl.handle.net/10356/154799 10.1016/j.optlaseng.2020.106148 2-s2.0-85085730329 134 106148 en Optics and Lasers in Engineering © 2020 Published by Elsevier Ltd |
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Engineering::Computer science and engineering Digital Image Correlation Out-Of-Plane Motion |
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Engineering::Computer science and engineering Digital Image Correlation Out-Of-Plane Motion Wang, Lianpo Chen, Yuangang Hui, Li Qian, Kemao Gu, Yonggang Chao, Zhai Out-of-plane motion and non-perpendicular alignment compensation for 2D-DIC based on cross-shaped structured light |
| description |
Although the 3D-DIC method has matured both theoretically and technically, the 2D-DIC method still plays an important role in in-plane deformation measurements. However, the accuracy of 2D-DIC is affected by out-of-plane motion (including out-of-plane translation and out-of-plane rotation) and non-perpendicular alignment. To tackle this problem, we propose to directly measure these unfavorable error sources by cross-shaped structured light (CSSL) and the optical triangulation method. Subsequently, pseudo-strains are calculated and compensated using an integrated mathematical model developed in this paper. To avoid mutual interference between the structured light strips and the speckle image, color coding is also proposed to use different color information for 2D-DIC processing and error compensation. Experiments with controlled out-of-the-plane motions show that the mean error after compensation can be as small as 50με. Uniaxial tension tests were also conducted to verify the feasibility of the proposed method in the real material parameter estimation experiment. |
| author2 |
School of Computer Science and Engineering |
| author_facet |
School of Computer Science and Engineering Wang, Lianpo Chen, Yuangang Hui, Li Qian, Kemao Gu, Yonggang Chao, Zhai |
| format |
Article |
| author |
Wang, Lianpo Chen, Yuangang Hui, Li Qian, Kemao Gu, Yonggang Chao, Zhai |
| author_sort |
Wang, Lianpo |
| title |
Out-of-plane motion and non-perpendicular alignment compensation for 2D-DIC based on cross-shaped structured light |
| title_short |
Out-of-plane motion and non-perpendicular alignment compensation for 2D-DIC based on cross-shaped structured light |
| title_full |
Out-of-plane motion and non-perpendicular alignment compensation for 2D-DIC based on cross-shaped structured light |
| title_fullStr |
Out-of-plane motion and non-perpendicular alignment compensation for 2D-DIC based on cross-shaped structured light |
| title_full_unstemmed |
Out-of-plane motion and non-perpendicular alignment compensation for 2D-DIC based on cross-shaped structured light |
| title_sort |
out-of-plane motion and non-perpendicular alignment compensation for 2d-dic based on cross-shaped structured light |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/154799 |
| _version_ |
1722355355575386112 |