Sun Haoen, Gong Zaiqiang, Qin Xiangjie, Shen Wenhao, Ma Haiqin, Pan Qiuhong, Tong Chengguo, Yuan Cheng
Research Center for Advanced Rechnology of Marine Information, Guilin University of Electronic Technology, Beihai 536000, China.
School of Electronic Information, Guilin University of Electronic Technology, Beihai 536000, China.
Sensors (Basel). 2024 Aug 30;24(17):5621. doi: 10.3390/s24175621.
This article presents a long-period fiber-grating sensor based on a congruent quasi-helical structure (CQH-LPFG) with the two-parameter measurement of both temperature and curvature. The CQH-LPFG sensor was manufactured using a high-frequency CO laser, and an innovative quasi-helical structure was introduced into the two-parameter measurement of the temperature and curvature of the optical fiber sensor with excellent results. The experiment and analysis demonstrate that the curvature sensitivities of the three resonance peaks in the 1440 nm to 1540 nm transmission spectrum were 11.88 nm/m, 8.05 nm/m, and 11.11 nm/m, and the curvature varied ranging from 0.156 m to 0.494 m. The three resonance peaks showed temperature responsivities of 29.87 pm/°C, 24.65 pm/°C, and 36.85 pm/°C, respectively, and the linear fit was of excellent quality. In the case of measuring both curvature and temperature changes simultaneously, the resonant peak wavelength of the CQH-LPFG sensor was demodulated through matrix analysis, with dip A and dip C providing superior simultaneous measurements. These features make it a promising candidate for applications such as engineering machinery and the health inspection of buildings.
本文介绍了一种基于全等准螺旋结构的长周期光纤光栅传感器(CQH-LPFG),可对温度和曲率进行双参数测量。该CQH-LPFG传感器采用高频CO激光器制造,并将一种创新的准螺旋结构引入光纤传感器的温度和曲率双参数测量中,效果良好。实验与分析表明,在1440nm至1540nm传输光谱中三个共振峰的曲率灵敏度分别为11.88nm/m、8.05nm/m和11.11nm/m,曲率变化范围为0.156m至0.494m。这三个共振峰的温度响应率分别为29.87pm/°C、24.65pm/°C和36.85pm/°C,线性拟合质量良好。在同时测量曲率和温度变化的情况下,通过矩阵分析对CQH-LPFG传感器的共振峰波长进行解调,其中凹陷A和凹陷C提供了出色的同时测量结果。这些特性使其成为工程机械和建筑物健康检测等应用的有前途的候选者。