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27 November 2023 Strain transfer characteristics of fiber Bragg gratings at ultra-low temperature
Yuwei Yang, Yutang Dai, Minghui Lu
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Proceedings Volume 12771, Advanced Sensor Systems and Applications XIII; 127711N (2023) https://doi.org/10.1117/12.2687533
Event: SPIE/COS Photonics Asia, 2023, Beijing, China
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Abstract
Strain monitoring for components under low-temperature environment is used in a variety of fields, and Fiber Bragg grating (FBG) is ideally suited for cryogenic sensing measurements due to its unique properties. In this paper, a simulation model of surface-adhesive Fiber Bragg grating with the substrate is established for low-temperature strain precise measurement. The strain distribution on the fiber when subjected to thermal strain is explored. Liquid nitrogen impact experiments are conducted with groups of encapsulation parameters, and it is found that the paste length and paste width affect the spectral chirp rate to a different extent. Furthermore, the suitable encapsulation parameters are selected, and temperature compensation experiments are carried out at 77 K to 293 K for surface-adhesive FBG using 304 stainless steel as the substrate material. The temperature compensation curves are derived from the experiments, which provides an accurate temperature compensation scheme for FBG strain measurement.
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Yuwei Yang, Yutang Dai, and Minghui Lu "Strain transfer characteristics of fiber Bragg gratings at ultra-low temperature", Proc. SPIE 12771, Advanced Sensor Systems and Applications XIII, 127711N (27 November 2023); https://doi.org/10.1117/12.2687533
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KEYWORDS
Fiber Bragg gratings
Temperature metrology
Nitrogen
Optical gratings
Adhesives
Reflectivity
Fiber optics sensors
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