[1] Alwis L S M, Bustamante H, Roth B, et al. . Evaluation of the durability and performance of FBG-based sensors for monitoring moisture in an aggressive gaseous waste sewer environment[J]. Journal of Lightwave Technology, 2017, 35(16): 3380-3386.

[2] 覃荷瑛, 朱万旭, 张贺丽, 等. 内嵌预压式大量程光纤光栅传感器的智能钢绞线的研制与性能分析[J]. 中国激光, 2017, 44(4): 0410001.

    Tan H Y, Zhu W X, Zhang H L, et al. Manufacturing and performance analysis of intelligent steel strand embedded with prepressure large scale fiber Bragg grating sensor[J]. Chinese Journal of Lasers, 2017, 44(4): 0410001.

[3] Li Y, Feng Y, Peng X, et al. Simultaneous measurement of the temperature and force using a steel cantilever soldered with a partially nickel coated in-fiber Bragg grating[J]. Optics Communications, 2012, 285(21): 4275-4279.

[4] Li T, Tan Y, Xue H, et al. Diaphragm based fiber Bragg grating acceleration sensor with temperature compensation[J]. Sensors, 2017, 17(1): 218.

[5] 杨玉强, 杨群, 葛伟, 等. 温度自动补偿超磁致伸缩材料布拉格光栅光纤电流传感器[J]. 光学精密工程, 2016, 34(10): 2377-2383.

    Yang Y Q, Yang Q, Ge W, et al. Temperature compensated GMM-FBG current sensor[J]. Optics and Precision Engineering, 2016, 34(10): 2377-2383.

[6] Zhao Y, Yu C, Liao Y. Differential FBG sensor for temperature-compensated high-pressure (or displacement) measurement[J]. Optics & Laser Technology, 2004, 36(1): 39-42.

[7] 陈昊, 闫光, 庄炜, 等. 光纤光栅应变传感器预紧封装及传感特性研究[J]. 激光与红外, 2016, 46(9): 1128-1132.

    Chen H, Yan G, Zhuang W, et al. Study on pre-packaged and sensing characteristics of fiber grating strain sensors[J]. Laser and Infrared, 2016, 46(9): 1128-1132.

[8] 覃荷瑛, 霍婷婷, 朱万旭. 螺旋倾斜复合技术对光纤布拉格光栅传感器的减敏作用[J]. 激光与光电子学进展, 2017, 54(3): 030601.

    Tan H Y, Huo T T, Zhu W X. Desensitization effect of helix-slant composite technology on fiber Bragg grating sensor[J]. Laser & Optoelectronics Progress, 2017, 54(3): 030601.

[9] 南秋明, 吴皓莹, 李盛. 一种光纤光栅振动传感器的金属化封装方法[J]. 焊接学报, 2016, 37(2): 17-20.

    Nan Q M, Wu H Y, Li S. A method for metallization encapsulation of fiber Bragg grating vibration sensors[J]. Transactions of China, 2016, 37(2): 17-20.

[10] 庞丹丹, 隋青美, 姜明顺. 基于衍射解调的新型光纤光栅高温传感网络[J]. 中国激光, 2011, 38(11): 1105005.

    Pang D D, Sui Q M, Jiang M S. New fiber Bragg grating high temperature sensing network based on diffraction demodulation[J]. Chinese Journal of Lasers, 2011, 38(11): 1105005.

[11] 申昊文, 朱萍玉, 许沛胜, 等. 基底刻槽封装式光纤光栅传感器应变传递影响因素分析[J]. 仪表技术与传感器, 2015( 2): 96- 99.

    Shen HW, Zhu PY, Xu PS, et al. Strain transfer factor analysis of basal grooving encapsulating fiber Bragg grating sensor[J]. Instrument Technique and Sensor, 2015( 2): 96- 99.

[12] 全文文, 康娟, 阳丽, 等. 基于光纤布拉格光栅的金属梁杨氏模量的测量[J]. 激光与光电子学进展, 2016, 53(4): 040604.

    Quan W W, Kang J, Yang L, et al. Young's modulus measurement of metal beams based on fiber Bragg grating[J]. Laser & Optoelectronics Progress, 2016, 53(4): 040604.

[13] 束德林. 工程材料力学性能[M]. 北京: 机械工业出版社, 2016: 60- 200.

    Shu DL. Mechanical properties of engineering materials[M]. Beijing: Mechanical Industry Press, 2016: 60- 200.

[14] Ansari F, Yuan L. Mechanics of bond and interface shear transfer in optical fiber sensors[J]. Journal of Engineering Mechanics, 1998, 124(4): 385-394.