数字图像相关
拉伤
材料科学
碳纳米管
变形(气象学)
复合材料
数字图像
光电子学
计算机科学
图像(数学)
图像处理
人工智能
医学
内科学
作者
Wei Meng,Ashish Pal,Sergei M. Bachilo,R. Bruce Weisman,Satish Nagarajaiah
标识
DOI:10.1038/s41598-022-15332-1
摘要
Abstract This study reports next generation optical strain measurement with “strain-sensing smart skin” (S 4 ) and a comparison of its performance against the established digital image correlation (DIC) method. S 4 measures strain-induced shifts in the emission wavelengths of single-wall carbon nanotubes embedded in a thin film on the specimen. The new S 4 film improves spectral uniformity of the nanotube sensors, avoids the need for annealing at elevated temperatures, and allows for parallel DIC measurements. Noncontact strain maps measured with the S 4 films and point-wise scanning were directly compared to those from DIC on acrylic, concrete, and aluminum test specimens, including one with subsurface damage. Strain features were more clearly revealed with S 4 than with DIC. Finite element method simulations also showed closer agreement with S 4 than with DIC results. These findings highlight the potential of S 4 strain measurement technology as a promising alternative or complement to existing technologies, especially when accumulated strains must be detected in structures that are not under constant observation.
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