• Title/Summary/Keyword: 광섬유 브래그 격자 센서 탐촉자

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Feasibility Study on Packaged FBG Sensors for Debonding Monitoring of Composite Wind Turbine Blade (풍력발전기 복합재 블레이드의 접착 분리 모니터링을 위한 패키징 광섬유 브래그 격자 센서 탐촉자의 사용성 검토)

  • Kwon, Il-Bum;Choi, Ki-Sun;Kim, Geun-Jin;Kim, Dong-Jin;Huh, Yong-Hak;Yoon, Dong-Jin
    • Journal of the Korean Society for Nondestructive Testing
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    • v.31 no.4
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    • pp.382-390
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    • 2011
  • Smart sensors embedable in composite wind turbine blades have been required to be researched for monitoring the health status of large wind turbine blades during real-time operation. In this research, the feasibility of packaged FBG sensor probes was studied through the experiments of composite blade trailing edge specimens in order to detect cracking and debonding damages. The instants of cracking and debonding generated in the shear web were confirmed by rapid changes of the wavelength shifts from the bare FBG sensor probes. Packaged FBG sensor probes were proposed to remove the fragile property of bare FBG sensor probes attached on composite wind blade specimens. Strain and temperature sensitivity of fabricated probes installed on the skin of blade specimen were almost equal to those of a bare FBG sensor. Strain sensitivity was measured to be ${\mu}{\varepsilon}$/pm in a strain range from to 0 to 600 ${\mu}{\varepsilon}$, and the calculated temperature sensitivity was to be 48 pm/$^{\circ}C$ in the heating test up to 80 degree.

Fiber Optic Bragg Grating Sensor for Crack Growth Detection of Structures (구조물의 균열 진전 탐지를 위한 광섬유 브래그 격자 센서)

  • Kwon, Il-Bum;Seo, Dae-Cheol;Kim, Chi-Yeop;Yoon, Dong-Jin;Lee, Seung-Seok
    • Journal of the Korean Society for Nondestructive Testing
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    • v.27 no.4
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    • pp.299-304
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    • 2007
  • There are to be some cracks on the material degradation part or the stress concentration parts of the main members, which carry on over-loads, of structures. Because these cracks can be used to evaluate the structural health status, it is important to monitor the crack growth for maintaining the structural safety. In this study, the fiber Bragg grating sensor with a drop ball was developed as a sensor for crack growth detection of an existing crack. The crack growth detection sensor was constructed with three parts: a probe part, a wavelength controling light source and receiver part, and an impact part. The probe part was just formed with a fiber Bragg grating optical fiber The wavelength controling light source part was composed of a current supplying circuit, a DFB laser diode, and a TEC controling circuit for wavelength control. Also, the impact part was just implemented by dropping a steel ball. The performance of this sensor was confirmed by the experiments of the crack detection with an aluminum plate having one existing crack. According to these experiments, the difference of the sensor signal outputs was correlated with the crack length. So, it was confirmed that this sensor could be applied to monitor the crack growth.

Reflection Signal Analysis for Time Division Multiplexing of Fiber Optic FBG Sensors (광섬유 FBG 센서의 시간 분할 다중화를 위한 반사 신호의 분석)

  • Kim, Geun-Jin;Kwon, Il-Bum;Yoon, Dong-Jin;Hwang, Du-Sun;Chung, Young-Joo
    • Journal of the Korean Society for Nondestructive Testing
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    • v.30 no.1
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    • pp.6-12
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    • 2010
  • Fiber optic sensor using fiber Bragg grating(FBG) probes is used for monitoring strain and temperature distributed on the wide surfaces of large structures. In this paper, in order to use many FBG probes in one optical fiber line, we propose a complex multiplexing technology which is composed of two techniques, one is time division multiplexing and another is wavelength division multiplexing. However, we only investigate the characteristics of time division multiplexing because FBG sensors basically can be operated by wavelength division multiplexing. We calculate the optimal reflectivities and the lengthwise location of five FBG probes in serial connection in order to obtain the unique reflected intensities from the FBG probes. We fabricate five FBG probes with the reflectivities of 13%, 16%, 25%, 40% and 80%, which are determined by the theoretical calculation, and observe the signal reflected from each FBG in the time domain from the experiment. There are differences between experimental and theoretical results caused by the signal noise and the differences of reflectivities of FBG probes. But the experimental results shows the reflected signals of five FBG probes which prove the availability of complex multiplexing.