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Calibrating an optical fiber humidity sensor and applying it in real-time monitoring of relative humidity in fresh concrete

Calibrating an optical fiber humidity sensor and applying it in real-time monitoring of relative humidity in fresh concrete
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摘要 A doubly cladding single-mode fiber humidity sensor is fabricated by agarose. The sensor has an insertion loss of -0.08 dB and a power change of -17.83 dB. The responses of the sensor to a relative humidity (RH) range form 30% to 100% at a temperature range form 25 to 34 ~C are validated. The experiments demonstrate that the absorbability of agarose gel to moisture decreases with increasing RH in measured gas. We propose a calibration method that uses lookup tables and construct a corresponding calibration matrix. Using the sensor, we conduct real-time monitoring of RH in fresh concrete during its hardening nrocess. A doubly cladding single-mode fiber humidity sensor is fabricated by agarose. The sensor has an insertion loss of -0.08 dB and a power change of -17.83 dB. The responses of the sensor to a relative humidity (RH) range form 30% to 100% at a temperature range form 25 to 34 ~C are validated. The experiments demonstrate that the absorbability of agarose gel to moisture decreases with increasing RH in measured gas. We propose a calibration method that uses lookup tables and construct a corresponding calibration matrix. Using the sensor, we conduct real-time monitoring of RH in fresh concrete during its hardening nrocess.
作者 张小康 邓焯泳 许瀚郎
机构地区 Department of Physics
出处 《Chinese Optics Letters》 SCIE EI CAS CSCD 2013年第9期18-20,共3页 中国光学快报(英文版)
关键词 CALIBRATION Humidity sensors Optical fiber fabrication Single mode fibers Calibration Humidity sensors Optical fiber fabrication Single mode fibers
分类号 TP212.14 [自动化与计算机技术—检测技术与自动化装置]
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参考文献10

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Chinese Optics Letters
2013年 第9期

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