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    Journals >Laser & Optoelectronics Progress >Volume 58 >Issue 21 >Page 2136001 > Article
    • Laser & Optoelectronics Progress
    • Vol. 58, Issue 21, 2136001 (2021)
    [in Chinese]
    Xuezhi Zhang1、2、3, Guanlong Chen1、2、3, Junfeng Jiang1、2、3、*, Xiaojun Fan1、2、3, Kun Liu1、2、3, Shuang Wang1、2、3, Yantao Liu4, Jingda Ni4, and Tiegen Liu1、2、3、**
    Author Affiliations
  • 1School of Precision Instrument and Opto-Electronics Engineering, Tianjin University, Tianjin 300072, China
  • 2Tianjin Optical Fiber Sensing Engineering Center, Institute of Optical Fiber Sensing of Tianjin University, Tianjin 300072, China
  • 3Key Laboratory of Opto-Electronics Information Technology (Tianjin University), Ministry of Education, Tianjin 300072, China
  • 4Beijing Institute of Structure and Environment Engineering, Beijing 100076, China
    • show less
    DOI: 10.3788/LOP202158.2136001 Cite this Article Set citation alerts
    Xuezhi Zhang, Guanlong Chen, Junfeng Jiang, Xiaojun Fan, Kun Liu, Shuang Wang, Yantao Liu, Jingda Ni, Tiegen Liu. [J]. Laser & Optoelectronics Progress, 2021, 58(21): 2136001 Copy Citation Text show less
    References

    [1] Liu Z, Feng Y Y, Lei G et al. Hydrodynamic performance in a sloshing liquid oxygen tank under different initial liquid filling levels[J]. Aerospace Science and Technology, 85, 544-555(2019).

    [2] Higuchi K, Takeuchi S, Sato E et al. Development and flight test of metal-lined CFRP cryogenic tank for reusable rocket[J]. Acta Astronautica, 57, 432-437(2005).

    [3] Noorian M A, Haddadpour H, Ebrahimian M. Stability analysis of elastic launch vehicles with fuel sloshing in planar flight using a BEM-FEM model[J]. Aerospace Science and Technology, 53, 74-84(2016).

    [4] Jones M. Structural-health monitoring: a sensitive issue[J]. Nature Photonics, 2, 153-154(2008).

    [5] Vladimirova T, Bridges C P, Prassinos G et al. Characterising wireless sensor motes for space applications[C], 43-50(2007).

    [6] Xu L S, Yang F F, Jiang Y Q et al. Variation of received signal strength in wireless sensor network[C], 151-154(2011).

    [7] Yüksel K, Pala D. Analytical investigation of a novel interrogation approach of fiber Bragg grating sensors using Optical Frequency Domain Reflectometry[J]. Optics and Lasers in Engineering, 81, 119-124(2016).

    [8] Zhao Y, Liao Y B. Discrimination methods and demodulation techniques for fiber Bragg grating sensors[J]. Optics and Lasers in Engineering, 41, 1-18(2004).

    [9] Baumann E W, Becker R S, Ellerbrock P J et al. DC-XA structural health-monitoring system[J]. Proceedings of SPIE, 3044, 195-206(1997).

    [10] Ellerbrock P J. DC-XA structural health-monitoring fiber optic-based strain measurement system[J]. Proceedings of SPIE, 3044, 207-218(1997).

    [11] Kang H K, Park J S, Kang D H et al. Strain monitoring of a filament wound composite tank using fiber Bragg grating sensors[J]. Smart Materials and Structures, 11, 848-853(2002).

    [12] Park S W, Kang S G, Kim M G et al. Structural health monitoring of cryogenic composite tank using embedded fiber Bragg grating sensors[EB/OL]. https://koasas.kaist.ac.kr/handle/10203/148412

    [13] Mizutani T, Takeda N, Takeya H. On-board strain measurement of a cryogenic composite tank mounted on a reusable rocket using FBG sensors[J]. Structural Health Monitoring, 5, 205-214(2006).

    [14] Flanagan M, Grogan D M, Goggins J et al. Permeability of carbon fibre PEEK composites for cryogenic storage tanks of future space launchers[J]. Composites Part A: Applied Science and Manufacturing, 101, 173-184(2017).

    [15] Hu C Y, Wen H Q, Bai W. A novel interrogation system for large scale sensing network with identical ultra-weak fiber Bragg gratings[J]. Journal of Lightwave Technology, 32, 1406-1411(2014).

    [16] Luo Z H, Wen H Q, Guo H Y et al. A time- and wavelength-division multiplexing sensor network with ultra-weak fiber Bragg gratings[J]. Optics Express, 21, 22799-22807(2013).

    [17] Hu C Y, Wen H Q, Bai W. A novel interrogation system for large scale sensing network with identical ultra-weak fiber Bragg gratings[J]. Journal of Lightwave Technology, 32, 1406-1411(2014).

    [18] Han P, Li Z Y, Chen L et al. A high-speed distributed ultra-weak FBG sensing system with high resolution[J]. IEEE Photonics Technology Letters, 29, 1249-1252(2017).

    [19] Fan X J, Jiang J F, Zhang X Z et al. Self-marked HCN gas based FBG demodulation in thermal cycling process for aerospace environment[J]. Optics Express, 26, 22944-22953(2018).

    [20] de Baere I, Luyckx G, Voet E et al. On the feasibility of optical fibre sensors for strain monitoring in thermoplastic composites under fatigue loading conditions[J]. Optics and Lasers in Engineering, 47, 403-411(2009).

    [21] Halstuch A, Westreich O, Sicron N et al. Femtosecond laser inscription of Bragg gratings on a thin GaN film grown on a sapphire substrate[J]. Optics and Lasers in Engineering, 109, 68-72(2018).

    [22] Hill K O, Meltz G. Fiber Bragg grating technology fundamentals and overview[J]. Journal of Lightwave Technology, 15, 1263-1276(1997).

    [23] Jiang J F, Song L Y, Liu T G et al. Performance characterization of fiber Bragg grating thermal response in space vacuum thermal environment[J]. Review of Scientific Instruments, 84, 123107(2013).

    [24] Wang Y M, Gong J M, Dong B et al. A large serial time-division multiplexed fiber Bragg grating sensor network[J]. Journal of Lightwave Technology, 30, 2751-2756(2012).

    [25] Arsenault T J, Achuthan A, Marzocca P et al. Development of a FBG based distributed strain sensor system for wind turbine structural health monitoring[J]. Smart Materials and Structures, 22, 075027(2013).

    [26] Neely L A, Kochergin V, See E M et al. Negative thermal expansion in a zirconium tungstate/epoxy composite at low temperatures[J]. Journal of Materials Science, 49, 392-396(2014).

    [27] Etches J A, Fernando G F. A method to measure the interfacial shear stress for optical fibres embedded in fibre reinforced composites[J]. Advanced Composites Letters, 11, 096369350201100(2002).

    [28] Kinefuchi K, Sarae W, Umemura Y et al. Investigation of cryogenic chilldown in a complex channel under low gravity using a sounding rocket[J]. Journal of Spacecraft and Rockets, 56, 91-103(2019).

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    Xuezhi Zhang, Guanlong Chen, Junfeng Jiang, Xiaojun Fan, Kun Liu, Shuang Wang, Yantao Liu, Jingda Ni, Tiegen Liu. [J]. Laser & Optoelectronics Progress, 2021, 58(21): 2136001
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