Distributed strain measurement and possible breakage detection of optical-fiber-embedded composite structure using slope-assisted Brillouin optical correlation-domain reflectometry

Heeyoung Lee; Yutaka Ochi; Takahiro Matsui; Yukihiro Matsumoto; Yosuke Tanaka; Hitoshi Nakamura; Yosuke Mizuno; Kentaro Nakamura

doi:10.7567/APEX.11.072501

Distributed strain measurement and possible breakage detection of optical-fiber-embedded composite structure using slope-assisted Brillouin optical correlation-domain reflectometry

Heeyoung Lee, Yutaka Ochi, Takahiro Matsui, Yukihiro Matsumoto, Yosuke Tanaka, Hitoshi Nakamura, Yosuke Mizuno, Kentaro Nakamura

Research output: Contribution to journal › Article › peer-review

10 Citations (Scopus)

Abstract

Slope-assisted Brillouin optical correlation-domain reflectometry (SA-BOCDR) is a recently developed structural health monitoring technique for measurements of strain, temperature, and loss distributions along optical fibers. Although the basic operational principle of this method has been clarified, no measurements using optical fibers embedded in actual structures have been reported. As a first step towards such practical applications, in this study, we present an example of an SA-BOCDR-based diagnosis using a composite structure with carbon fiber-reinforced plastics. The system’s output agrees well with the actual strain distributions. We were also able to detect the breakage of the embedded fiber, thus demonstrating the promise of SA-BOCDR for practical applications.

Original language	English
Article number	072501
Journal	Applied Physics Express
Volume	11
Issue number	7
DOIs	https://doi.org/10.7567/APEX.11.072501
Publication status	Published - 2018 Jul
Externally published	Yes

ASJC Scopus subject areas

Engineering(all)
Physics and Astronomy(all)

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Lee, H., Ochi, Y., Matsui, T., Matsumoto, Y., Tanaka, Y., Nakamura, H., Mizuno, Y., & Nakamura, K. (2018). Distributed strain measurement and possible breakage detection of optical-fiber-embedded composite structure using slope-assisted Brillouin optical correlation-domain reflectometry. Applied Physics Express, 11(7), Article 072501. https://doi.org/10.7567/APEX.11.072501

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title = "Distributed strain measurement and possible breakage detection of optical-fiber-embedded composite structure using slope-assisted Brillouin optical correlation-domain reflectometry",

abstract = "Slope-assisted Brillouin optical correlation-domain reflectometry (SA-BOCDR) is a recently developed structural health monitoring technique for measurements of strain, temperature, and loss distributions along optical fibers. Although the basic operational principle of this method has been clarified, no measurements using optical fibers embedded in actual structures have been reported. As a first step towards such practical applications, in this study, we present an example of an SA-BOCDR-based diagnosis using a composite structure with carbon fiber-reinforced plastics. The system{\textquoteright}s output agrees well with the actual strain distributions. We were also able to detect the breakage of the embedded fiber, thus demonstrating the promise of SA-BOCDR for practical applications.",

author = "Heeyoung Lee and Yutaka Ochi and Takahiro Matsui and Yukihiro Matsumoto and Yosuke Tanaka and Hitoshi Nakamura and Yosuke Mizuno and Kentaro Nakamura",

note = "Funding Information: Acknowledgments This study was supported by JSPS KAKENHI Grant Numbers 17H04930 and 17J07226, and by research grants from the Japan Gas Association, ESPEC Foundation for Global Environment Research and Technology, Association for Disaster Prevention Research, Fujikura Foundation, and Japan Association for Chemical Innovation. Publisher Copyright: {\textcopyright} 2018 The Japan Society of Applied Physics.",

year = "2018",

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doi = "10.7567/APEX.11.072501",

language = "English",

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AU - Lee, Heeyoung

AU - Ochi, Yutaka

AU - Matsui, Takahiro

AU - Matsumoto, Yukihiro

AU - Tanaka, Yosuke

AU - Nakamura, Hitoshi

AU - Mizuno, Yosuke

AU - Nakamura, Kentaro

N1 - Funding Information: Acknowledgments This study was supported by JSPS KAKENHI Grant Numbers 17H04930 and 17J07226, and by research grants from the Japan Gas Association, ESPEC Foundation for Global Environment Research and Technology, Association for Disaster Prevention Research, Fujikura Foundation, and Japan Association for Chemical Innovation. Publisher Copyright: © 2018 The Japan Society of Applied Physics.

PY - 2018/7

Y1 - 2018/7

N2 - Slope-assisted Brillouin optical correlation-domain reflectometry (SA-BOCDR) is a recently developed structural health monitoring technique for measurements of strain, temperature, and loss distributions along optical fibers. Although the basic operational principle of this method has been clarified, no measurements using optical fibers embedded in actual structures have been reported. As a first step towards such practical applications, in this study, we present an example of an SA-BOCDR-based diagnosis using a composite structure with carbon fiber-reinforced plastics. The system’s output agrees well with the actual strain distributions. We were also able to detect the breakage of the embedded fiber, thus demonstrating the promise of SA-BOCDR for practical applications.

AB - Slope-assisted Brillouin optical correlation-domain reflectometry (SA-BOCDR) is a recently developed structural health monitoring technique for measurements of strain, temperature, and loss distributions along optical fibers. Although the basic operational principle of this method has been clarified, no measurements using optical fibers embedded in actual structures have been reported. As a first step towards such practical applications, in this study, we present an example of an SA-BOCDR-based diagnosis using a composite structure with carbon fiber-reinforced plastics. The system’s output agrees well with the actual strain distributions. We were also able to detect the breakage of the embedded fiber, thus demonstrating the promise of SA-BOCDR for practical applications.

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Distributed strain measurement and possible breakage detection of optical-fiber-embedded composite structure using slope-assisted Brillouin optical correlation-domain reflectometry

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