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An all-fibre multi-parameter sensor for composite structures based on a chirped fibre Bragg grating

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Języki publikacji
EN
Abstrakty
EN
An all-fibre multi-parameter sensor for composite structures based on a chirped optical fibre Bragg grating (CFBG) has been studied theoretically and experimentally. The principle of multi-parameters sensing with a single CFBG is based on that the centre wavelength and the FWHM (full width at half maximum) in the reflection spectrum of a CFBG vary linearly with the temperature and/or the axial stress. A wavelength matched optical fibre long period grating (LPG) and another wavelength matched reference CFBG (CFBGR) have been used to interrogate the signal of the sensor CFBG (CFBGS). The temperature and strain of the composite structure have been monitored real-time with one CFBG as a single sensor head. The temperature resolution of 0.12ºC and the strain resolution of 1.1με for a composite structure have been realized in experiments. The experiment results agree well with the theoretical analyses.
Twórcy
autor
  • State Key Laboratory for Modification of Chemical Fibres and Polymer Materials, Donghua University, 2999 North Remin Rd., Songjiang District, Shanghai 201602, China
autor
  • State Key Laboratory for Modification of Chemical Fibres and Polymer Materials, Donghua University, 2999 North Remin Rd., Songjiang District, Shanghai 201602, China
autor
  • State Key Laboratory for Modification of Chemical Fibres and Polymer Materials, Donghua University, 2999 North Remin Rd., Songjiang District, Shanghai 201602, China
autor
  • State Key Laboratory for Modification of Chemical Fibres and Polymer Materials, Donghua University, 2999 North Remin Rd., Songjiang District, Shanghai 201602, China
autor
  • State Key Laboratory for Modification of Chemical Fibres and Polymer Materials, Donghua University, 2999 North Remin Rd., Songjiang District, Shanghai 201602, China
autor
  • State Key Laboratory for Modification of Chemical Fibres and Polymer Materials, Donghua University, 2999 North Remin Rd., Songjiang District, Shanghai 201602, China
Bibliografia
  • 1. W. W. Morey, "Fibre optic Bragg grating sensors", Proc. SPIE. 1169, 98-107 (1989).
  • 2. G. Zhou and L. M. Sim, “Damage detection and assessment in fibre reinforced composite structures with embedded fibre optic sensors: review”, Smart Mater. Struct. 11, 925-939 (2002).
  • 3. V. M. Murukeshan, P.Y. Chan, and L. Song, “Cure monitoring of smart composites using fibre Bragg grating based embedded sensors”, Sensor Actuat. A:Phys. 79, 153-161 (2000).
  • 4. J. Leng, “Structural health monitoring of smart composite materials by using EFPI and FBG sensors”, Sensor Actuat. A:Phys. 103, 330-340 (2003).
  • 5. J. S. Leng and A. Asundi, “Real-time cure monitoring of smart composite materials using extrinsic Fabry-Perot interfero-meter and fibre Bragg grating sensors”, Smart Mater. Struct., 11, 249-255 (2002).
  • 6. S. Yashiro, N. Takeda, T. Okabe, and H. Sekine ,“A new approach to predicting multiple damage states in composite laminates with embedded FBG sensors”, Compos. Sci. Technol. 65, 659-667 (2005).
  • 7. F. Jeannot, J. Cugnoni, J. Botsis, G. Thomas, and C. Dragan, “High-speed internal strain measurements in composite structures under dynamic load using embedded FBG sensors”, Compos. Struct. 92, 1905-1912 (2010).
  • 8. S. Yashiro, T. Okabe, and N. Takeda, “Damage identification in a holed CFRP laminate using a chirped fibre Bragg grating sensor”, Compos. Sci. Technol. 67, 286-295 (2007).
  • 9. Y. Zhao and Y.B. Liao, “Discrimination methods and demodulation techniques for fibre Bragg grating sensors”, Opt. Laser Eng. 41, 1-18 (2004).
  • 10. O. Masaki, M. Shunsuke, and T. Kenichiro, “Influence of non-ideal chirped fibre Bragg grating characteristics on all-optical clock recovery based on the temporal Talbot effect”, Appl. Opt. 48, 679-690 (2009).
  • 11. J. Palaniappan, H Wang, S. L. Ogin, A Thorne, and G. T. Reed, “Prediction of the reflected spectra from chirped fibre Bragg grating embedded within cracked crossly laminates”, Meas. Sci. Technol. 17, 1609-1614, (2006).
  • 12. R. W. Fallon, L. Zhang, and L. A. Everall, “All fibre optical sensing system Bragg grating sensor interrogated by a long-period grating”, Meas. Sci. Technol. 9, 1969-1973 (1998).
  • 13. Y. G. Zhan, S. L. Xue, Q. Y. Yang, and S. Q. Xiang, “A novel fibre Bragg grating high-temperature sensor”, Optik 119, 535-539 (2008).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c76b7fbd-fb84-4727-a82d-76836589a276
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