Abstract
In this paper, the response of fiber Bragg gratings (FBGs) subjected to the ultrasonic wave has been theoretically and experimentally investigated. Although FBG sensors have been widely used in the ultrasonic detection for practical structural health monitoring, the relationship between the grating length and ultrasonic frequency is not yet to be obtained. To address this problem, an ultrasound detection system based on FBGs is designed and the response sensitivity of different lengths gratings are detected. Experimental results indicate that the grating with 3 mm length has a higher sensitivity when detecting high frequency ultrasonic wave, and the amplitude can be up to 0.6 mV. The 10 mm length grating has better detection sensitivity for low frequency ultrasonic wave and the amplitude is 0.8 mV. The results of this analysis provide useful tools for high sensitivity ultrasound detection in damage detection systems.
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Y. Tan, L. Meng, and D. Zhang, “Strain sensing characteristic of ultrasonic excitation-fiber Bragg gratings damage detection technique,” Measurement, 2013, 46(1): 294–304.
Z. LI, M. Xu, J. Tang, Y. Chen, and Y. Zhao, “A study of signal demodulation techniques in a fiber Bragg grating sensing system,” Industrial Instrumentation and Automation, 2005, (3): 12–16.
V. Italia, A. Cusano, S. Campopiano, A. Cutolo, and M. Giordano, “Analysis of the phase response of fiber Bragg gratings to longitudinal ultrasonic fields in the high frequency regime: towards new interrogation strategies,” in Proceedings of 2005 IEEE/LEOS Workshop on Fibers and Optical Passive Components, Italy, pp. 389–392, 2005.
B. Sorazu, G. Thursby, and B. Culshaw, “Wavefront integrating fiber sensors for ultrasonic detection,” IEEE Sensors Journal, 2011, 11(7): 1623–1631.
P. M. Lam, K. T. Lau, H. Y. Ling, Z. Su, and H. Y. Tam, “Acousto-ultrasonic sensing for delaminated GFRP composites using an embedded FBG sensor,” Optics & Lasers in Engineering, 2009, 47(10): 1049–1055.
J. Lee, H. Tsuda, and N. Toyama, “Impact wave and damage detections using a strain-free fiber Bragg grating ultrasonic receiver,” NDT & E International, 2007, 40(1): 85–93.
T. Liu and M. Han, “Analysis of fiber Bragg gratings for ultrasonic detection,” IEEE Sensors Journal, 2012, 12(7): 2368–2373.
G. Wild and S. Hinckley, “Spatial performance of acousto-ultrasonic fiber Bragg grating sensor,” IEEE Sensors Journal, 2010, 10(4): 805–806.
H. Zhu, J. Yu, and J. Zhang, “A summary review and advantages of vibration-based damage identification methods in structural health monitoring,” Engineering Mechanics, 2011, 28(2): 1–6.
T. Erdogan, “Fiber grating spectra,” Journal of Lightwave Technology, 1997, 15(8): 1277–1294.
M. Majumder, T. K. Gangopadhyay, A. K. Chakraborty, K. Dasgupta, and D. K. Bhattacharya, “Fiber Bragg gratings in structural health monitoring—present status and applications,” Sensors and Actuators A: Physical, 2008, 147(1): 150–164.
J. Song, Q. Jiang, Y. Huang, Y. Li, Y. Jia, X. Rong, et al., “Research on pressure tactile sensing technology based on fiber Bragg grating array,” Photonic Sensors, 2015, 5(3): 1–10.
Q. C. Wang, Y. E. Xian-Feng, Y. L. Cao, and L. Y. Zhan, “Detection of focused ultrasonic fields with fiber Bragg grating,” Journal of Transcluction Technology, 2005, 18(1): 171–174.
H. Zhang, X. Sun, X. Qi, X. Liu, and H. Dong, “Ultrasonic lamb wave inspection using fiber Bragg gratings,” in IEEE 2008 China-Japan Joint Microwave Conference, Shanghai, pp. 805–808, 2008.
G. Coppola, A. Minardo, A. Cusano, G. Breglio, L. Zeni, A. Cutolo, et al., “Analysis of feasibility on the use of fiber Bragg grating sensors as ultrasound detectors,” in Proc. SPIE, vol. 4328, pp. 224–232, 2001.
N. E. Fisher, D. J. Webb, C. N. Pannell, D. A. Jackson, L. R. Gavrilov, J. W. Hand, et al., “Ultra-sonic field and temperature sensor based on short in-fiber Bragg gratings,” Electronics Letters, 1998, 34(11): 1139–1140.
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Yu, Z., Jiang, Q., Zhang, H. et al. Theoretical and experimental investigation of fiber Bragg gratings with different lengths for ultrasonic detection. Photonic Sens 6, 187–192 (2016). https://doi.org/10.1007/s13320-016-0307-y
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DOI: https://doi.org/10.1007/s13320-016-0307-y