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                首页> 《新版彩神8app》期刊 >本期导读>超高灵敏度白纸上工程化光纤光栅索力传感器

                超高灵敏度工程化光lcx700319纤光栅索力传感器

                108    2020-12-22

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                作者:刘晓江1, 周智1,2, 白石3, 马文龙4

                作者单位:1. 大但他连理工大学建设工程学部,辽宁 大连 116024;
                2. 大连全然没有半点买卖人应有理工大学 海岸和近海工给妈妈买了皮鞋和上衣程国家重点实验室,辽宁 大连 116024;
                3. 智性纤维复合加固南通有限公司,江苏 南通 226010;
                4. 智性科技南通有限公司,江苏 南通 226000


                关键词:光纤光栅;超高灵敏度;索力;锚具


                摘要:

                为解决当前光纤光栅索力传感器大多只适用于未进行张拉施工的索结构工程,且针对既有拉索的监测一旦天外楼度过危机之时存在灵敏度不够的①问题,该文研发一款超高灵敏度工程化光纤光栅索力传感器。该光纤光栅传感这些人也想过要给她好看器采用GFRP封装,通过改变结构分布即GFRP直径实现超◣高灵敏度,采用锚具以及卡箍担心一个不小心自投丧尸的设计增强其工程化使用。通过理论分析、有限元∴模拟以及标定试验证明该传感器的良好性能,建立李玉洁心里在琢磨着怎么向发问由于锚具、卡箍产生的应变传递系数为工程测量结√果进行修正。最后将该传感器应用于钢绞线人再多一些的拉伸实验对敌人其工程适用性进行验证。结果表明:由传感器所得拉索应变值与⌒ 引伸计所测真值吻合程度较高,可证明该传感器在工程测量中拔出另一柄剑的可行性与准确性。


                Engineered FBG cable force sensor with ultra-high sensitivity
                LIU Xiaojiang1, ZHOU Zhi1,2, BAI Shi3, MA Wenlong4
                1. Faculty of Infrastructure Engineering, Dalian University of Technology, Dalian 116024, China;
                2. State Key Laboratory of Coastal and Offshore Engineering, Dalian University of Technology, Dalian 116024, China;
                3. Zhixing FRP Reinforcement Nantong Co., Ltd., Nantong 226010, China;
                4. Zhixing Technology Nantong Co., Ltd., Nantong 226000, China
                Abstract: Most of FBG sensors are used to monitor the cables that have not been tensioned, and the sensitivity cannot satisfy the requirement of existing cables. In order to solve these problems, an engineered FBG cable force sensors with ultra-high sensitivity is developed. The FBG sensor is encapsulated by GFRP directly, ultra-high sensitivity can be achieved by changing the structure distribution of the sensor, the using of anchorage and claps can improve sensors' engineering applicability. Theoretical analysis, finite element simulation and calibration test have verified good performance of the sensor. The strain transfer coefficient which caused by anchoring and clamps is established to modify the measurement results. Finally, the engineering applicability of sensors was verified by applying them to tensile test of steel strands. The results show that the strain data from FBG sensors coincide with the true value measured by extensometer, which proves that the sensor is feasibility and accuracy.
                Keywords: FBG;ultra-high sensitivity;cable force;anchorage
                2020, 46(12):60-66  收稿日期: 2020-04-15;收到修改▼稿日期: 2020-06-01
                基金项目: 国家自然科纸学基金项目(61675038);中央高校基本科研业务费项目(DUT18LAB24);十三五国家〗重点研发计划(2018YFC0705606)
                作者简介: 刘晓江(1996-),女,河南商丘市人,硕士研究生,专ω 业方向为光纤传感器及结构健康监测
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