Optical Fiber Sensors for Ultrasonic Structural Health Monitoring: A Review

Soman, Rohan; Wee, Junghyun; Peters, Kara

doi:10.3390/s21217345

Cited by 46 publications

(23 citation statements)

References 167 publications

(188 reference statements)

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“…Tis is mainly because of the strain transfer rate between the substrate and SMF. In the work of [46], a model is built to estimate this strain transfer rate α by equation (8). Te expression of k in this equation is shown in equation ( 9) as follows:…”

Section: Numerical Verifcationmentioning

confidence: 99%

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Accuracy of Distributed Strain Sensing with Single-Mode Fibre in Composite Laminates under Thermal and Vibration Loads

Khodaei

2023

Structural Control and Health Monitoring

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In this work, the strain measurement accuracy of single-mode fibre (SMF) under thermal and vibration loads is investigated by strain-frequency shift coefficient analyses. This research allows for the application of SMF sensors for structural health monitoring in real operational conditions. The strain measurement accuracy under combined static and thermal load is investigated experimentally, which demonstrated that temperature fluctuations induce non-negligible errors in the strain measurement, even with temperature compensation applied. The temperature fluctuation range which can induce measurement errors is quantified as less than −20 ° C or higher than 55 ° C. In addition, a fatigue experiment is conducted to investigate the measurement accuracy under low-frequency vibration load. The results of the fatigue experiment demonstrate that the vibrations mainly increase the ratio of null values in strain measurements. Findings from experiments can be applied to enhance structural health monitoring accuracy and reduce false positives. This study has important implications for the service application of distributed optical fibre sensing for composite structure health monitoring.

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Section: Numerical Verifcationmentioning

confidence: 99%

“…Various fbre optical (FO) sensors have been adopted in diferent SHM applications [7][8][9]. For example, buckling detection based on distributed FO sensors [10], a hybrid piezoelectric-fbre optic system based on fbre Bragg gratings (FBG) [11,12], embedded FBG sensors in SHM of complex composite structures [13], and sandwich panel [14].…”

Section: Introductionmentioning

confidence: 99%

Accuracy of Distributed Strain Sensing with Single-Mode Fibre in Composite Laminates under Thermal and Vibration Loads

Khodaei

2023

Structural Control and Health Monitoring

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“…The traditional acoustic measurement uses piezoelectric transducers (PZT) to sense the ultrasonic wave generated by partial discharges in power equipment. However, PZT has a relatively weak sensitivity and is difficult to multiplex, and as such, it struggles to meet the needs of partial discharge detection in power equipment [ 5 ]. A variety of optical fiber ultrasonic sensors have been developed rapidly and provides a new technical scheme for partial discharge ultrasonic detection.…”

Section: Introductionmentioning

confidence: 99%

Phase Stability Control of Optical Fiber Partial Discharge Ultrasonic Sensing System

Chen¹,

Zhang²,

et al. 2022

Sensors

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Optic fiber interferometers are highly sensitive ultrasonic sensors for partial discharge detection. However, low-frequency vibration and environmental noise will disturb the sensors in the field, and cause a phase fading suppression effect that reduces sensitivity. This paper analyzed the problems existing in the phase feedback control system based on PZT, and an improved scheme incorporating a high-frequency carrier phase demodulation is proposed. Based on an acousto-optic modulator, the proposed phase feedback control system overcomes the phase fading suppression effect. A test is carried out on an ultrasonic calibration platform and a transformer oil discharge platform. The test results show that the stability of the improved phase demodulation system has been significantly improved, and meets the requirements of field applications. Compared with the signal-to-noise ratio at the time of phase fading of the system before the improvement, the signal-to-noise ratio of the improved system is improved by 69 dB.

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“…However, the FBG sensor's faults or failures become more frequent than the structural damage during the sensor lifetime owing to their own natural aging, line failure, installation failure, harsh operational environment (e.g., temperature, humidity and moisture), and so on. Furthermore, the sensor detection using the one-by-one method will take a long time and increase the maintenance costs, especially in the large sensor network [17,18]. The early identification of faults or failures in FBG sensors is the most important aspect of fault detection to ensure data accuracy and reliability [19,20].…”

Section: Introductionmentioning

confidence: 99%

Development of a Fault Detection Instrument for Fiber Bragg Grating Sensing System on Airplane

Kong

Chen

2022

Micromachines

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This study develops a fault detection device for the fiber Bragg grating (FBG) sensing system and a fault detection method to realize the rapid detection of the FBG sensing system on airplanes. According to the distribution of FBG sensors on airplanes, the FBG sensing system is built based on wavelength division multiplexing (WDM) and space division multiplexing (SDM) technologies. Furthermore, the hardware and software of the fault detection device and the relevant FBG demodulator are studied in detail. Additionally, in view of the similar features of the healthy FBG sensor in the same measuring point, a rapid fault diagnosis method based on a synthetical anomaly index is proposed. The features (light intensity I, signal length L, standard deviation of original sampleand energy value in time-domain P) of FBG sensors are extracted. The aggregation center value of the above feature values is obtained through the loop iteration method. Furthermore, the separation degrees of features are calculated and then form the synthetical anomaly index so as to make an effective diagnosis of the state of the FBG sensor. Finally, the designed fault detection instrument and proposed fault detection method are used to monitor the 25 FBG sensors on the airplane, the results indicated that three faulty and two abnormal FBG sensors on the airplane are identified, showing the effectiveness of the proposed fault detection method.

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Optical Fiber Sensors for Ultrasonic Structural Health Monitoring: A Review

Cited by 46 publications

References 167 publications

Accuracy of Distributed Strain Sensing with Single-Mode Fibre in Composite Laminates under Thermal and Vibration Loads

Accuracy of Distributed Strain Sensing with Single-Mode Fibre in Composite Laminates under Thermal and Vibration Loads

Phase Stability Control of Optical Fiber Partial Discharge Ultrasonic Sensing System

Development of a Fault Detection Instrument for Fiber Bragg Grating Sensing System on Airplane

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