Terahertz Non-destructive testing and imaging of corrosion in coated steel plates

The corrosion will lead to the decrease of bearing capacity and durability of steel plate structures. Due to the limitations of the existing non-destructive testing (NDT) approaches, it is difficult to accurately evaluate the corrosion of steel plates, including the corrosion location, area, and thickness. In this paper, a method of extracting the delay time difference in the reflected terahertz (THz) signal is proposed to detect and image the corrosion in coated steel plates. The results from experiments and numerical modeling show that this THz method has a high measurement precision, and the thicknesses of coating and corrosion layers can be measured simultaneously. When the epoxy resin set as coating layer with a thickness of 1000 mu m, the minimum thickness of corrosion layer that can be effectively detected in THz model is 25 mu m, and the maximum thickness is 3700 mu m. Meanwhile, the error percentage of the corrosion layer thickness in the range of 50 -3700 mu m is less than 3%. In addition, a novel imaging technique to visualize the corrosion thickness of steel plates is developed by intro-ducing the THz method. The three-dimensional (3-D) visual imaging directly describes the thickness and location distribution of the corrosion area while removing the effect of the coating layer. Those characteristic values, including the maximum, minimum, average, median, standard deviation, of the corrosion thickness, as well as the ratio of corrosion area/scanning area, can be extracted by this imaging method. In conclusion, the proposed THz technology can realize the NDT of the corrosion area, shape, and thickness, which serves as a guide to quantify the degree of corrosion for steel plate structures.

Automated summary

Corrosion reduces the bearing capacity and durability of steel plate structures. Existing non-destructive testing methods have limitations in accurately assessing the corrosion of steel plates in terms of location, area, and thickness. This paper proposes a method of using reflected terahertz (THz) signals to detect and image corrosion in coated steel plates. Results from experiments and numerical modeling demonstrate the high measurement precision of this THz method, allowing for simultaneous measurement of coating and corrosion layer thickness. A novel imaging technique using THz is also developed to visualize the corrosion thickness of steel plates, providing characteristic values such as maximum, minimum, average, median, and standard deviation. In conclusion, the proposed THz technology enables non-destructive testing of corrosion area, shape, and thickness, serving as a guide to quantify the degree of corrosion in steel plate structures.