材料科学
亮度
激光器
稳健性(进化)
纳秒
光电子学
波长
光学
编码(集合论)
钛
测距
辐照
氮化镓
高颜色
辐射
色差
计算机科学
激光功率缩放
人工智能
代码生成
作者
Yutong Wang,Xiran Guo,Hao Xu,Jie Li,Changjun Ke
摘要
Laser-induced coloring is an effective technique to achieve in situ coloring of various materials, which can apply to fabricating a color two-dimensional code with the benefit of increasing information capacity and promoting efficiency. Herein, we propose a method for fabricating a color two-dimensional code with quaternary numbers by a nanosecond laser. Two-dimensional color patch matrices on titanium (TA2) plates were obtained by changing laser power and scanning speed. The effect of laser parameters on surface morphology and color was investigated. In addition, yellow and blue were chosen as the pattern color of the two-dimensional code according to experimental results, and each pattern was decoded through hue, saturation, brightness color analysis. In addition, the tolerance to temperature and chemical environment of the color two-dimensional code was tested, indicating robustness to extreme environment and temperature. Finally, the appearances of color two-dimensional codes under different wavelengths were investigated. This research validated that a nanosecond laser marked two-dimensional code is a feasible, noncontact, and promising method, which is of great significance to improve the robustness and expand the capacity and accuracy of a two-dimensional code.
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