• Title/Summary/Keyword: strain sensors

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Internal Strain Monitoring of Filament Wound Pressure Tanks using Embedded Fiber Bragg Grating Sensors (삽입된 광섬유 브래그 격자 센서를 이용한 필라멘트 와인딩된 복합재료 압력탱크의 내부 변형률 모니터링)

  • Kim, C.U.;Park, S.W.;Park, S.O.;Kim, C.G.;Kang, D.H.
    • Proceedings of the Korean Society For Composite Materials Conference
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    • 2005.04a
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    • pp.17-20
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    • 2005
  • In-situ structural health monitoring of filament wound pressure tanks were conducted during water-pressurizing test using embedded fiber Bragg grating (FBG) sensors. We need to monitor inner strains during working in order to verify the health condition of pressure tanks more accurately because finite element analyses on filament wound pressure tanks usually show large differences between inner and outer strains. Fiber optic sensors, especially FBG sensors can be easily embedded into the composite structures contrary to conventional electric strain gages (ESGs). In addition, many FBG sensors can be multiplexed in single optical fiber using wavelength division multiplexing (WDM) techniques. We fabricated a standard testing and evaluation bottle (STEB) with embedded FBG sensors and performed a water-pressurizing test. In order to increase the survivability of embedded FBG sensors, we suggested a revised fabrication process for embedding FBG sensors into a filament wound pressure tank, which includes a new protecting technique of sensor heads, the grating parts. From the experimental results, it was demonstrated that FBG sensors can be successfully adapted to filament wound pressure tanks for their structural health monitoring by embedding.

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Mini-review on VO2-based Sensors Utilizing Metal-insulator Transition

  • Hyeongyu Gim;Minho Lee;Woojin Hong;Kootak Hong
    • Journal of Sensor Science and Technology
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    • v.33 no.5
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    • pp.265-273
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    • 2024
  • With the advent of artificial intelligence and Internet of Things, demands for high-performance sensors with high sensitivity and ultrafast response for big data acquisition and processing have increased. VO2, a strongly correlated material, has been shown to exhibit a reversible and abrupt resistance change in the sub-nanosecond scale through a phase transition from an insulating to a metallic state at 68℃. The metal-insulator transition (MIT) of VO2 provides the potential for the development of highly sensitive and ultrafast high-performance sensors. This is because it can be triggered by various external stimuli, such as heat, light, gas adsorption/desorption, and strain. Therefore, attempts have been made to develop high-performance sensors by controlling the MIT of VO2 in response to external stimuli. This study reviewed recent progress in various VO2-based sensors that utilize MIT, including photodetectors, gas sensors, and strain sensors. This review is expected to serve as an overview of the approaches for controlling the MIT behavior of VO2 and provide insights into the design of high-performance sensors that exploit MIT.

Study on the Dynamic Response Characteristics of Impact Force Sensors Based on the Strain Gage Measurement Principle (변형률 게이지 측정원리를 이용한 충격하중 측정 센서의 동적응답 특성에 관한 연구)

  • Ahn, Jung-Lyang;Kim, Seung-Kon;Sung, Nak-Hoon;Song, Young-Soo;Cho, Sang-Ho
    • Explosives and Blasting
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    • v.29 no.1
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    • pp.41-47
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    • 2011
  • In order to estimate blast damage zone and control rock fragmentation in blasting, it is important to obtain information regarding blast hole pressure. In this study, drop impact tests of acrylic, aluminium, steel sensors were performed to investigate the dynamic response characterizations of the sensors through the strain signals. As a result, the strain signals obtained from the steel sensors showed less sensitivity to impact force level and experienced small changes with various length of the sensors. The steel sensors were applied to measure the impact force of an electric detonator.

Strain Transmission Characteristics of Packaged Fiber Bragg Grating Sensors for Structural Health Monitoring

  • Cho, Sung-In;Yoo, Seung-Jae;Kim, Eun-Ho;Lee, In;Kwon, Il-Bum;Yoon, Dong-Jin
    • Journal of the Korean Society for Nondestructive Testing
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    • v.30 no.3
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    • pp.236-243
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    • 2010
  • Fiber Bragg grating(FBG) sensor arrays can be used to monitor the mechanical behavior of the large composite structures such as wind turbine rotor blades and aircrafts. However, brittle FBG sensors, especially multiplexed FBG sensors are easily damaged when they are installed in the flexible structures. As a protection of brittle FBG sensors, epoxy packaged FBG sensors have been presented in this paper. Finite element analysis and experiments were performed to evaluate the effects of adhesives, packaging materials and the bonding layer thickness on the strain transmission. Two types of epoxy were used for packaging FBG sensors and the sensor probes were attached with various bonding layer thickness. It was observed that thin bonding layer with high elastic modulus ratio of the adhesive to packaging provided good strain transmission. However, the strain transmission was significantly decreased when elastic modulus of the adhesive was much lower than the packaged FBG sensor probe's one.

Strain monitoring of overhead contact line with FBG sensors (FBG 센서를 활용한 가공 전차선의 스트레인 모니터링)

  • Choi, Won-Seok;Ko, Ki-Han;Lee, Kyung-Bok;Park, Young;Cho, Yong-Hyeon
    • Proceedings of the KSR Conference
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    • 2008.11b
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    • pp.1227-1230
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    • 2008
  • This paper reports on measurement method for the fiber optic strain monitoring of overhead contact line systems of trains. We used fiber Bragg grating (FBG) sensors to measure the strain variation of overhead contact line. FBG sensors were attached on the contact line and connected to the monitering system with optical fibers. The monitering system with FBG sensors showed very good sensitivity to measuring strain variation and this system could be applied to the overhead contact line of KTX.

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The Classification and Investigation of Smart Textile Sensors for Wearable Vital Signs Monitoring (웨어러블 생체신호 모니터링을 위한 스마트텍스타일센서의 분류 및 고찰)

  • Jang, Eunji;Cho, Gilsoo
    • Fashion & Textile Research Journal
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    • v.21 no.6
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    • pp.697-707
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    • 2019
  • This review paper deals with materials, classification, and a current article investigation on smart textile sensors for wearable vital signs monitoring (WVSM). Smart textile sensors can lose electrical conductivity during vital signs monitoring when applying them to clothing. Because they should have to endure severe conditions (bending, folding, and distortion) when wearing. Imparting electrical conductivity for application is a critical consideration when manufacturing smart textile sensors. Smart textile sensors fabricate by utilizing electro-conductive materials such as metals, allotrope of carbon, and intrinsically conductive polymers (ICPs). It classifies as performance level, fabric structure, intrinsic/extrinsic modification, and sensing mechanism. The classification of smart textile sensors by sensing mechanism includes pressure/force sensors, strain sensors, electrodes, optical sensors, biosensors, and temperature/humidity sensors. In the previous study, pressure/force sensors perform well despite the small capacitance changes of 1-2 pF. Strain sensors work reliably at 1 ㏀/cm or lower. Electrodes require an electrical resistance of less than 10 Ω/cm. Optical sensors using plastic optical fibers (POF) coupled with light sources need light in-coupling efficiency values that are over 40%. Biosensors can quantify by wicking rate and/or colorimetry as the reactivity between the bioreceptor and transducer. Temperature/humidity sensors require actuating triggers that show the flap opening of shape memory polymer or with a color-changing time of thermochromic pigment lower than 17 seconds.

Study on FBG Sensors for Hull Stress Monitoring (선체 응력 모니터링을 위한 FBG 센서에 대한 연구)

  • Kim, Yu-Mi;Lee, Nam-Kwon;Lee, Seung-Hwan;Bae, Dong-Myung;Yu, Yun-Sik
    • Journal of Sensor Science and Technology
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    • v.21 no.4
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    • pp.276-282
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    • 2012
  • Vessels receive stress during their navigations as well as during their cargo operations. This stress may cause damages to the hull and may result in accidents. So the hull stress monitoring system(HSMS) is recommended in order to prevent these accidents. In this paper, we manufactured fiber Bragg grating(FBG) sensor and the model ship for towing tank experiments. The strain characteristics of the model ship on the water wave were measured through the towing tank experiment. The FBG sensors and electric strain gauges were attached on the connection jig, and then the characteristics of the FBG sensor were compared with those of the electric strain gauge. The strain of model ship was increased according to the increment of the amplitude of water wave. In particular, the largest strain was measured in the center of the model ship. As the wave period increased, the strain of model ship was decreased.

Spectrum analysis of the FBG sensor signal and location determination of FBG sensor into the $H_2$ pressure vessel (해석적인 기법을 통한 FBG 센서의 스펙트럼 분석 및 수소고압용기의 센서 삽입위치 결정)

  • Park, S.O.;Kim, C.U.;Park, J.S.;Kim, C.G.
    • Proceedings of the Korean Society For Composite Materials Conference
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    • 2005.04a
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    • pp.25-28
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    • 2005
  • The optical fiber is known for the proper sensor which can accomplish the structural health monitoring, Fiber Bragg Grating sensors are being studied more than any other fiber optic sensors due to good multiplexing capabilities. But because the signal stability of FBG sensors can be influenced by the strain gradient, it needs to analyze signal of FBG sensors. Particularly acoording to strain gradient induced by structural geometry or cracks, the spectrum peak of the FBG sensor signal can be split easily. In this paper, the spectrum analysis of the FBG sensor signal was performed and the region of embedment of FBG sensors was determined in $H_2$ pressure vessel by numerical method.

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Novel Long-period Fiber Grating devices for Monitoring the Deformation of Ship Hull (선체의 변형을 감지하기 위한 새로운 형태의 장주기 광섬유 격자 소자)

  • Sohn, Kyung-Rak
    • Journal of Advanced Marine Engineering and Technology
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    • v.31 no.6
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    • pp.761-767
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    • 2007
  • We have developed novel optical-fiber sensors based on strain-induced long-period fiber gratings for monitoring the deformation of a hull. They have no external pressure for sustaining the mechanical formed gratings. The pressure, which provides a force to form the periodic grating along the single mode fiber, was realized by the bonding strength of a photopolymer. To reduce the polarization dependency of the sensors caused by the asymmetry structure of gratings, a Faraday Rotator Mirror (FRM) was utilized in this experiment. We have realized the polarization-insensitive function of the proposed sensors. The change of an external strain are measured by an optical spectrum analyzer. When the external stain increases. the attenuation at the resonant wavelength decreases and the loss peak was slightly shifted to the shorter wavelength.

Application of Combined-Type Sensors for the Behavioral Measurement of Concrete Beams (콘크리트 보의 거동 측정을 위한 조합형 센서의 활용)

  • Kim, Yun-Tae;Kim, Sang-Chel
    • Journal of the Korea Concrete Institute
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    • v.15 no.3
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    • pp.454-461
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    • 2003
  • This study addressed a procedure to carry out an experimental study on a behavior of simple and continuous concrete beams. For this purpose, sample concrete beams were fabricated and sensors for the measurement of strains and deflections were attached both on the surface of the beams and inside them. Two types of sensors were used to measure strains associated with loading: electric resistance strain sensors and fiber optic sensors. Displacement gauges were also attached on the bottoms of beams to investigate the behavior of beams more rationally. The behavior of the beams was then evaluated throughout the results measured from different sensors while they were subject to steady loading up to failure. From results of this study, it was found that concurrent use of sensors and displacement gauges is helpful in investigating the behavior of concrete beams more effectively. Especially, combined-type strain sensors specifically fabricated in this experiment were found not to be affected by the occurrence of cracks so significantly and to be very effective in monitoring strains of concrete structure. It was also observed that beams show nonlinear force-displacement relationship and reinforcing bars take charge of resisting the external force once cracks occur in concrete beams.