Potential of Discriminative Sensing of Strain and Temperature Using Perfluorinated Polymer FBG

Mizuno Yosuke; Ishikawa Ryo; Lee Heeyoung; Theodosiou Antreas; Kalli Kyriacos; Nakamura Kentaro

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Potential of Discriminative Sensing of Strain and Temperature Using Perfluorinated Polymer FBG

机译：使用全氟化聚合物FBG进行应变和温度判别的潜力

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Though the strain characteristics of fiber Bragg gratings (FBGs) inscribed in perfluorinated graded-index (PFGI) polymer optical fibers (POFs) have been reported, their temperature characteristics have not yet been detailed. In this paper, we experimentally investigate the temperature dependence of the Bragg wavelength of a PFGI-POF-FBG. With the increasing temperature, each peak of the FBG-reflected spectrum shifted to longer wavelength with different coefficients. The temperature coefficient of one of the clearest peaks was 0.09 nm/degrees C, which was eight times larger than those of FBGs in silica single-mode fibers and almost the same as those of FBGs in polymethyl methacrylate POFs. A temperature-independent but strain-dependent peak was also observed, which indicates the potential of discriminative sensing of strain and temperature.

机译：尽管已经报道了全氟化渐变指数（PFGI）聚合物光纤（POF）中内含的布拉格光纤光栅（FBG）的应变特性，但尚未详细说明其温度特性。在本文中，我们通过实验研究了PFGI-POF-FBG布拉格波长的温度依赖性。随着温度的升高，FBG反射光谱的每个峰都以不同的系数移至更长的波长。最清晰的峰之一的温度系数为0.09 nm /℃，比二氧化硅单模光纤中FBG的温度系数大八倍，几乎与聚甲基丙烯酸甲酯POF中的FBG的温度系数相同。还观察到与温度无关但与应变有关的峰，这表明可以有区别地感测应变和温度。

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来源
《IEEE sensors journal》 |2019年第12期|4458-4462|共5页
作者
Mizuno Yosuke; Ishikawa Ryo; Lee Heeyoung; Theodosiou Antreas; Kalli Kyriacos; Nakamura Kentaro;
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作者单位

Tokyo Inst Technol Inst Innovat Res Yokohama Kanagawa 2268503 Japan;

Cyprus Univ Technol Photon & Opt Sensors Res Lab CY-3036 Limassol Cyprus;

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原文格式 PDF
正文语种 eng
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关键词
Polymer optical fibers; fiber Bragg gratings; temperature sensing; strain sensing;

机译：聚合物光纤;布拉格光纤光栅温度感应;应变感应;

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专利

1. Ultra-Sensitive Strain and Temperature Sensing Based on Modal Interference in Perfluorinated Polymer Optical Fibers [J] . Goki Numata, Neisei Hayashi, Marie Tabaru, Photonics Journal, IEEE . 2014,第5期

机译：全模态聚合物光纤中基于模态干涉的超灵敏应变和温度传感
2. Experimental Method of Temperature and Strain Discrimination in Polymer Composite Material by Embedded Fiber-Optic Sensors Based on Femtosecond-Inscribed FBGs [J] . Shiskin Victor V., Terentyev Vadim S., Kharenko Denis S., Journal of Sensors . 2016,第Pta4期

机译：飞秒刻写光纤光栅的嵌入式光纤传感器在聚合物复合材料中温度和应变鉴别的实验方法
3. Strain Sensitivity Enhancement of a Sensing Head Based on ZEONEX Polymer FBG in Series With Silica Fiber [J] . Ricardo Oliveira, Lúcia Bilro, Thiago H. R. Marques, Journal of Lightwave Technology . 2018,第22期

机译：基于ZEONEX聚合物FBG的石英纤维串联传感头的应变敏感性增强。
4. Strain sensing with femtosecond inscribed FBGs in perfluorinated polymer optical fibers [C] . P. Stajanca, A. Lacraz, K. Kalli, Optical sensing and detection IV . 2016

机译：飞秒内接的FBG在全氟化聚合物光纤中的应变传感
5. Fiber Bragg grating (FBG) sensors for the simultaneous measurements of strain and temperature [D] . Singh, Abhay Kumar. 2016

机译：光纤布拉格光栅（FBG）传感器，用于同时测量应变和温度
6. Investigating the Strain Temperature and Humidity Sensitivity of a Multimode Graded-Index Perfluorinated Polymer Optical Fiber with Bragg Grating [O] . Yulong Zheng, Kort Bremer, Bernhard Roth 2018

机译：用布拉格光栅研究多模渐变折射率全氟化聚合物光纤的应变温度和湿度敏感性
7. Tunable Polymer Fiber Bragg Grating (FBG) Inscription: Fabrication of Dual-FBG Temperature Compensated Polymer Optical Fiber Strain Sensors [O] . Yuan Scott Wu, Stefani Alessio, Bang Ole 2012

机译：可调聚合物光纤布拉格光栅（FBG）铭文：双FBG温度补偿聚合物光纤应变传感器的制作
8. Strain Measurement Using FBG on COPV in Stress Rupture Test [R] . Banks, Curtis, Grant, Joseph 2007

机译：应用FBG对COpV应力破裂试验进行应变测量

Potential of Discriminative Sensing of Strain and Temperature Using Perfluorinated Polymer FBG

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