[3] AGOSTINO I, DANIELE N, PASQUALEDI P, et al. Strain monitoring of a composite drag strut in aircraft landing gear by fiber Bragg grating sensors［J］. Sensors (Basel, Switzerland), 2019, 19(10): 2239.

[5] LIDIYA A E, RAJA R V J, PHAM V D, et al. Detecting hemoglobin content blood glucose using surface plasmon resonance in Dshaped photonic crystal fiber［J］. Optical Fiber Technology, 2019, 50: 132138.

[10] KAZUYUKI S, TOMOYUKI H. Heatresistant optical fiber coated with newly developed UV curable silicone resins［C］//Proc.of the 60th IWCS, 2011: 424428.

[11] UMA K C R, DHANALAKSHIMI S, KUMAR R, et al. Computational analysis of thermally induced stress in corrosionresistant metal coated fiber optic sensors for oceanographic application[J]. Optics, 2019, 195: 163097.

[12] TANGONAN G L, WYSOCKI J A, BLAIR G R, et al. Optical, mechanical, and radiation performance of metalcoated fibers at high temperature［J］. 1984: WF6.

[14] SIMPKINS P, KURKJIAN C R, SCHROEDER C M. Aluminiumcoated silica fibres: strength and solderability［J］. Electronics Letters, 1995, 31(9): 747749.

[29] CHEN D M, DAI X N, TANG Z B. Development of metallized threedirectional fibre Bragg grating strain sensor［J］. Journal of Physics: Conference Series, 2020, 1654(1): 012092.

[32] FOX G R, MULLER C A P, SETTER N, et al. Wavelength tunable fiber Bragg grating devices based on sputter deposited resistive and piezoelectric coatings［J］. Journal of Vacuum Science & Technology A: Vacuum, Surfaces, and Films, 1997, 15(3): 17911795.

[33] LI X C, PRINZ F, SEIM J. Thermal behavior of a metal embedded fiber Bragg grating sensor［J］. Smart Materials and Structures, 2001, 10(4): 575579.

[37] SEKAR R, SHIVANANJU B N, LAKSHMI K P, et al. Dual functional performance of fiber Bragg gratings coated with metals using flash evaporation technique［J］. Optical Fiber Technology, 2012, 18(4): 183185.

[38] DYSHLYUK A V, MITSAI E V, CHEREPAKHIN A B, et al. Surface plasmon resonance in a bent singlemode fiber with a metallized cladding experimental research［J］. Technical Physics Letters, 2017, 43(8): 727729.

[39] ARRIDGE R G C, BAKER A A, CRATCHLEY D. Metal coated fibres and fibre reinforced metals［J］. Journal of Scientific Instruments, 1964, 41(5): 259261.

[40] ARRIDGE R G C, HEYWOOD D. The freezecoating of filaments［J］. British Journal of Applied Physics, 1967, 18(4): 447457.

[41] SEO H S, PAEK U C, OH K, et al. Melt coating of tin on silica optical fiber［J］. Journal of Lightwave Technology, 1998, 16(12): 23552364.

[43] Anonymous Person. Metalcoated fibres. doublecladding designs and more［J］. Nature Photonics, 2011, 5(8): 473.

[44] SCURTI F, MCGARRAHAN J, SCHWARTZ J. Effects of metallic coatings on the thermal sensitivity of optical fiber sensors at cryogenic temperatures［J］. Optical Materials Express, 2017, 7(6): 1754.

[52] BUBNOV M M, DIANOV E M, SEMJONOV S L. Influence of residual water on the strength of metal coated optical fibers［J］.MRS Online Proceedings Library, 1991, 244(1): 97101.

[53] CICCOTTI M. Stresscorrosion mechanisms in silicate glasses［J］. Journal of Physics D: Applied Physics, 2009, 42(21): 214006.

[55] SHIUE S T, YANG C H, CHU R S, et al. Effect of the coating thickness and roughness on the mechanical strength and thermally induced stress voids in nickelcoated optical fibers prepared by electroless plating method［J］. Thin Solid Films, 2005, 485(12): 169175.

[57] PAKDEEVANICH P. Optical fiber sensor based on a polymer optical fiber macrobend to study thermal expansion of metals［J］. Journal of Physics: Conference Series, 2018, 1027: 012007.

[60] LI Y L, YANG K, LI X W. Temperature sensing characteristics of metal coated FBG during dynamic cooling process［J］. Optical Fiber Technology, 2018, 45: 368375.

[62] SANDLIN S, KINNUNEN T, RM J, et al. A simple method for metal recoating of optical fibre Bragg gratings［J］. Surface and Coatings Technology, 2006, 201(6): 30613065.

[64] LI Y L, ZHANG H, FENG Y, et al. A plating method for metal coating of fiber Bragg grating［J］. Chinese Optics Letters, 2009, 7(2): 115117.

[66] ALEMOHAMMAD H, TOYSERKANI E. Metal embedded optical fiber sensors: laserbased layered manufacturing procedures［J］. Journal of Manufacturing Science and Engineering, 2011, 133(3): 031015.

[67] HSIAO T C, HSIEH T S, CHEN Y C, et al. Metalcoated fiber Bragg grating for dynamic temperature sensor［J］. Optik, 2016, 127(22): 1074010745.

[69] LU Y, SHI B, WEI G Q, et al. Application of a distributed optical fiber sensing technique in monitoring the stress of precast piles［J］. Smart Materials and Structures, 2012, 21(11): 115011.

[70] LO Y L, LIN Y C, CHEN Y M. Athermal fibre Bragg grating strain gauge with metal coating in measurement of thermal expansion coefficient［J］. Sensors and Actuators A: Physical, 2005, 117(1): 103109.

[71] HU W B, CAI H L, YANG M H, et al. FeCcoated fibre Bragg grating sensor for steel corrosion monitoring［J］. Corrosion Science, 2011, 53(5): 19331938.

[72] GANESH R S, NAVANEETHAN M, PATIL V L, et al. Sensitivity enhancement of ammonia gas sensor based on Ag/ZnO flower and nanoellipsoids at low temperature［J］. Sensors and Actuators B: Chemical, 2018, 255: 672683.

[73] MILIUTINA E, GUSELNIKOVA O, CHUFISTOVA S, et al. Fast and alloptical hydrogen sensor based on goldcoated optical fiber functionalized with metalorganic framework layer［J］. ACS Sensors, 2019, 4(12): 31333140.

[76] VERMA R, GUPTA B D. Detection of heavy metal ions in contaminated water by surface plasmon resonance based optical fibre sensor using conducting polymer and chitosan［J］. Food Chemistry, 2015, 166: 568575.

[77] SHRIVASTAV A M, USHA S P, GUPTA B D. Highly sensitive and selective erythromycin nanosensor employing fiber optic SPR/ERY imprinted nanostructure: application in milk and honey［J］. Biosensors and Bioelectronics, 2017, 90: 516524.