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Feasibility of Packaged Interferometric Photonics Micro-Taper Sensor for Cold-Formed Steel Roof Truss Structural Health Monitoring

机译：封装式干涉光子微锥传感器在冷弯型钢屋架结构健康监测中的可行性

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The paper presents the feasibility of a packaged interferometric photonics micro-taper sensor to be used for accurate measurement of curvature on cold-formed steel (CFS) roof truss structural monitoring. The interferometric photonics micro-taper sensor is protected within a polypropylene package to survive in harsh, in-the-field conditions. After installing both the interferometric photonics micro-taper sensor and linear variable displacement transducers (LVDTs) on a CFS roof truss, fatigue tests were conducted on the truss and the curvature is characterized. The accuracy of curvature measurement results is further verified by obtaining correlation coefficient of 0.9973 which shows excellence agreement between LVDT and interferometric photonics micro-taper sensor measurement. Furthermore, the sensor is highly sensitive to curvature which is −0.0372 µW/km⁻¹for the curvature range of 1.880 km⁻¹to 3.324 km⁻¹.

机译：本文提出了一种封装式干涉光子微锥传感器的可行性，该传感器可用于在冷弯型钢（CFS）屋架结构监测中精确测量曲率。干涉光子微锥形传感器在聚丙烯包装中得到保护，可以在恶劣的现场条件下生存。在CFS屋顶桁架上同时安装了干涉式光子学微锥度传感器和线性可变位移传感器（LVDT）之后，对桁架进行了疲劳测试并确定了曲率。通过获得0.9973的相关系数进一步验证了曲率测量结果的准确性，该相关系数表明LVDT与干涉式光子微锥度传感器测量之间的卓越一致性。此外，传感器对-0.0372 µW / km的曲率高度敏感 ^{-1
在1.880 km的曲率范围内
^{-1
至3.324公里
^{-1
。}}}

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《IEEE International Nanoelectronics Conferences 》|2019年|1-4|共4页
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W. L. Oon; H. S. Lin; C. H. Pua; J. H. Lim; S. K. Lim; F. A. Rahman;
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关键词
Optical fiber sensors; Optical interferometry; Monitoring; Optical fibers;

机译：光纤传感器;光学干涉法;监测;光纤;

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专利

1. Design optimisation for cold-formed steel residential roof truss using genetic algorithm [J] . Ka Yee Kok, Hieng Ho Lau, Thanh Duoc Phan, Military operations research . 2018 ,第5期

机译：基于遗传算法的冷弯型钢住宅屋架设计优化
2. Experimental Investigation on Locally Produced Cold-Formed Steel Sections for Roof Truss System [J] . Shek Poi Ngian, Mahmood Md Tahir, Tan Cher Siang, Advanced Science Letters . 2012 ,第Null期

机译：屋架系统局部生产冷弯型钢的试验研究
3. Health monitoring of joint conditions in steel truss bridges with relative displacement sensors [J] . Li Jun, Hao Hong Measurement . 2016 ,第Null期

机译：带有相对位移传感器的钢桁架桥梁接缝状态健康监测
4. Feasibility of Packaged Interferometric Photonics Micro-Taper Sensor for Cold-Formed Steel Roof Truss Structural Health Monitoring [C] . W. L. Oon, H. S. Lin, C. H. Pua, IEEE International Nanoelectronics Conferences . 2019

机译：用于冷成型钢屋顶桁架结构健康监测的封装干涉光子微锥体传感器的可行性
5. Experimental and analytical studies of the behavior of cold-formed steel roof truss elements. [D] . Nuttayasakul, Nuthaporn. 2005

机译：冷弯型钢屋顶桁架单元性能的实验和分析研究。
6. An Optical Interferometric Triaxial Displacement Sensor for Structural Health Monitoring: Characterization of Sliding and Debonding for a Delamination Process [O] . Chen Zhu, Yizheng Chen, Yiyang Zhuang, 2017

机译：用于结构健康监测的光学干涉三轴位移传感器：脱层过程中滑动和脱胶的表征
7. Force and deformation behaviour of roof truss system with cold-formed steel channel section [O] . Tam Ping Hau, Mohd. Sani Mohd. Syahrul Hisyam, Cher Siang Tan, 2015

机译：冷弯型钢槽型屋架系统的受力与变形特性
8. Structural Performance of Light-Frame Roof Assemblies: 1. Truss Assemblies with High Truss Stiffness Variability [R] . Wolfe, R. W., McCarthy, M. 1989

机译：轻型框架屋顶组件的结构性能：1。具有高桁架刚度可变性的桁架组件

Feasibility of Packaged Interferometric Photonics Micro-Taper Sensor for Cold-Formed Steel Roof Truss Structural Health Monitoring

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