On-Line Writing and Performance High-Temperature Resistant Fiber Bragg Grating Array

Jianguan Tang; Shuqi Huang; Huiyong Guo; Dian Fan; Minghong Yang

doi:10.3788/LOP220434

[1] Mihailov S J. Fiber Bragg grating sensors for harsh environments[J]. Sensors, 12, 1898-1918(2012).

[2] Nellen P M, Mauron P, Frank A et al. Reliability of fiber Bragg grating based sensors for downhole applications[J]. Sensors and Actuators A: Physical, 103, 364-376(2003).

[3] Kahandawa G C, Epaarachchi J, Wang H et al. Use of FBG sensors for SHM in aerospace structures[J]. Photonic Sensors, 2, 203-214(2012).

[4] Riza M A, Go Y I, Harun S W et al. FBG sensors for environmental and biochemical applications: a review[J]. IEEE Sensors Journal, 20, 7614-7627(2020).

[5] Rodrigues C, Félix C, Lage A et al. Development of a long-term monitoring system based on FBG sensors applied to concrete bridges[J]. Engineering Structures, 32, 1993-2002(2010).

[6] Hong C Y, Zhang Y F, Zhang M X et al. Application of FBG sensors for geotechnical health monitoring, a review of sensor design, implementation methods and packaging techniques[J]. Sensors and Actuators A: Physical, 244, 184-197(2016).

[7] Zhan Y G, Xiang S Q, He H et al. Study on high temperature optic fiber grating sensor[J]. Chinese Journal of Lasers, 32, 1235-1238(2005).

[8] Wang X P, Zhao C L, Kang J et al. Research progress and development of high-temperature fiber sensors[J]. Optical Communication Technology, 36, 42-44(2012).

[9] Askins C G, Putnam M A, Patrick H J et al. Fibre strength unaffected by online writing of single-pulse Bragg gratings[J]. Electronics Letters, 33, 1333-1334(1997).

[10] Yang M H, Bai W, Guo H Y et al. Huge capacity fiber-optic sensing network based on ultra-weak draw tower gratings[J]. Photonic Sensors, 6, 26-41(2016).

[11] Semjonov S L, Sapozhnikov D A, Erin D Y et al. High-temperature polyimide coating for optical fibres[J]. Quantum Electronics, 45, 330-332(2015).

[12] Yu L, Guo H L, Lu G Q et al. Production and performance of heat resistant optical fiber[J]. Optical Communication Technology, 38, 8-11(2014).

[13] Hicyilmaz A S, Bedeloglu A C. Applications of polyimide coatings: a review[J]. SN Applied Sciences, 3, 363(2021).

[14] Yu H H, Zheng Y, Guo H Y et al. Research progress in online preparation techniques of fiber Bragg gratings on optical fiber drawing tower[J]. Journal of Functional Materials, 45, 12001-12005(2014).

[15] Guo H Y, Zheng Y, Tang J G et al. Reflectivity measurement of weak fiber Bragg grating (FBG)[J]. Journal of Wuhan University of Technology, 27, 1177-1179(2012).

[16] Wu C Y. The strength of optical fiber[J]. Modern Cable Transmission, 29-35(1994).

[17] Ma Z W, Wang Z F, Liu H H et al. Tensile strength and failure behavior of bare single mode fibers[J]. Optical Fiber Technology, 52, 101966(2019).

[18] Hagemann V, Trutzel M N, Staudigel L et al. Mechanical resistance of draw-tower-Bragg-grating sensors[J]. Electronics Letters, 34, 211-212(1998).

[19] Kalish D, Tariyal B K. Static and dynamic fatigue of a polymer-coated fused silica optical fiber[J]. Journal of the American Ceramic Society, 61, 518-523(1978).

[20] Liu S, Ding L Y, Guo H Y et al. Thermal stability of drawing-tower grating written in a single mode fiber[J]. Journal of Lightwave Technology, 37, 3073-3077(2019).

[21] Huang L, Dyer R S, Lago R J et al. Mechanical properties of polyimide coated optical fibers at elevated temperatures[J]. Proceedings of SPIE, 9702, 97020Y(2016).

[22] Cusanello V, Jacobson N, Supczak M et al. A hermetic carbon/polyimide coating combination for adverse environments[C], 335-341(1995).