Development of a High-Sensitivity and Adjustable FBG Strain Sensor for Structural Monitoring

IF 5.1 2区工程技术 Q1 CONSTRUCTION & BUILDING TECHNOLOGY Structural Control & Health Monitoring Pub Date : 2023-11-15 DOI:10.1155/2023/6665803

Heying Qin, Chunde Li, Jianqiang Zhu, Boguang Luo, Feng Fu

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Abstract

In this paper, a new fiber Bragg grating (FBG) strain sensor with adjustable sensitivity is invented. The sensitivity adjustment, strain sensing, and temperature compensation principles of the sensor and the corresponding formulae are developed. The prototype sensor specimen is developed, and a series of tests are performed to investigate its strain sensitivity and temperature compensation characteristics. The results show that the strain sensitivity of the sensor can be adjusted effectively by the correspondent L/L_FBG parameter, with an acceptable discrepancy within ±5% of the theoretical value. The linearity, repeatability, and hysteresis were analyzed, and the errors were 0.98%, 1.15%, and 0.09%, respectively, with excellent performance. When the temperature difference was 20°C, through temperature compensation calibration, the error between the monitored strain and the actual strain was within 5% after temperature compensation correction, showing that this new type of FBG strain sensor can meet the strain monitoring needs of various engineering structures and provide reliable data acquisition.

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开发用于结构监测的高灵敏度可调式 FBG 应变传感器

本文发明了一种灵敏度可调的新型光纤布拉格光栅（FBG）应变传感器。本文提出了该传感器的灵敏度调节、应变感应和温度补偿原理以及相应的计算公式。开发了传感器原型试样，并进行了一系列测试以研究其应变灵敏度和温度补偿特性。结果表明，传感器的应变灵敏度可以通过相应的 L/LFBG 参数进行有效调节，其偏差在理论值的 ±5% 以内是可以接受的。分析了线性度、重复性和滞后，误差分别为 0.98%、1.15% 和 0.09%，性能优异。当温差为 20°C 时，通过温度补偿校准，温度补偿校正后监测应变与实际应变的误差在 5%以内，表明这种新型 FBG 应变传感器可以满足各种工程结构的应变监测需求，并提供可靠的数据采集。

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来源期刊

Structural Control & Health Monitoring 工程技术-工程：土木

CiteScore

9.50

自引率

13.00%

发文量

234

审稿时长

8 months

期刊介绍： The Journal Structural Control and Health Monitoring encompasses all theoretical and technological aspects of structural control, structural health monitoring theory and smart materials and structures. The journal focuses on aerospace, civil, infrastructure and mechanical engineering applications. Original contributions based on analytical, computational and experimental methods are solicited in three main areas: monitoring, control, and smart materials and structures, covering subjects such as system identification, health monitoring, health diagnostics, multi-functional materials, signal processing, sensor technology, passive, active and semi active control schemes and implementations, shape memory alloys, piezoelectrics and mechatronics. Also of interest are actuator design, dynamic systems, dynamic stability, artificial intelligence tools, data acquisition, wireless communications, measurements, MEMS/NEMS sensors for local damage detection, optical fibre sensors for health monitoring, remote control of monitoring systems, sensor-logger combinations for mobile applications, corrosion sensors, scour indicators and experimental techniques.