基于啁啾光栅的温度与应变测量解耦方法研究
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TN253

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教育部“长江学者与创新团队发展计划”(IRT16R07)、北京市属高校水平教师队伍建设支持计划(IDHT20170510)资助项目


Research on decoupling method of temperature and strain measurement based on chirp fiber bragg grating
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    摘要:

    实际环境中光纤光栅存在对应变与温度测量交叉敏感问题,提出了利用啁啾光纤光栅(CFBG)进行双参数同时测量的方法。通过将CFBG胶封于等强度梁上,利用CFBG反射谱的中心波长与带宽对温度与应变的灵敏度差异,组成系数解耦矩阵,实现对应变与温度的同时测量。室温下,CFBG的中心波长与带宽随应变变化的灵敏度分别为079、138 pm/με,线性度为0998 8、0999 3;在-20~60℃温度范围内,CFBG的中心波长与带宽随温度变化的灵敏度分别为2274、2397 pm/℃,线性度为0999 8、0997 0,表明使用单个CFBG可以实现同时测量应变与温度。

    Abstract:

    In the real environment, there is a crosssensitivity problem between fiber grating strain and temperature measurement. This paper proposes a simultaneous measurement method of two parameters using chirp fiber grating sensor. By sealing chirp fiber bragg grating (CFBG) on the equalstrength beam, the difference between the sensitivity of the center wavelength and the bandwidth of the CFBG reflection spectrum to temperature and strain is used to form a coefficient decoupling matrix, which can achieve simultaneous measurement of the corresponding change and temperature. At the room temperature, the sensitivities of CFBG center wavelength and bandwidth with strain are 079 and 138 pm/με. The corresponding linearity values are 0998 8 and 0999 3. Among the temperature range of -20~60℃, the sensitivities of the central wavelength and bandwidth of CFBG with temperature are 2274 and 2397 pm/℃. The linearity values are 0999 8 and 0997 0. Experimental results show that the simultaneous measurement of strain and temperature can be achieved using one single CFBG.

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夏晓鹏,张钰民,初大平,孟凡勇,祝连庆.基于啁啾光栅的温度与应变测量解耦方法研究[J].仪器仪表学报,2019,40(6):131-137

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  • 在线发布日期: 2022-02-10
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