项目名称: 基于内嵌光纤FRP智能锚杆的边坡锚固稳定性监测与评价方法研究
项目编号: No.51508180
项目类型: 青年科学基金项目
立项/批准年度: 2016
项目学科: 建筑科学
项目作者: 黄明华
作者单位: 湖南大学
项目金额: 20万元
中文摘要: 边坡和滑坡灾害防治已成为大规模基础设施建设、城市开发及环境保护等领域的重要研究课题,其首要问题是边坡锚固稳定性问题。为此,围绕FRP锚杆的荷载传递机理和承载特性及其加固边坡稳定性监测和评价方法的关键科学问题,本项目融合FRP锚杆高耐久和光纤传感技术分布式测试的特点,研制一种兼具承载与感知特性的内嵌光纤FRP 智能锚杆,研究其工作机理及应力分布式监测方法;通过模型试验和理论分析,研究FRP智能锚杆的荷载传递机理及承载特性;在此基础上,针对坡面堆载、持续降雨两种常遇孕灾模式,展开边坡锚固稳定性监测的模型试验和数值模拟研究,发展基于FRP智能锚杆应力分布式信息的边坡锚固稳定性监测方法,探讨边坡锚固系统的应力演化规律及其稳定性评价方法,并建立工程应用示范。.通过上述研究,发展一套内嵌光纤FRP 智能锚杆的制备工艺,揭示其荷载传递机理与承载特性,提出一种方便实用的边坡锚固稳定性监测和评价方法。
中文关键词: 结构监测;边坡锚固稳定性;FRP智能锚杆;光纤传感技术;监测与评价
英文摘要: Disaster prevention of slope and landslide has become an important subject of large-scale infrastructure construction, urban development as well as environmental protection and its most important issue is slope stability. Accordingly, in order to solve the key problems on the load transfer mechanism and mechanical behavior of FRP anchor as well as monitoring and assessment methods of the anchored-slope stability, this proposal aims to develop a novel smart fiber-reinforced polymer (FRP) anchor with built-in optical fiber, inheriting both the excellent durability from FRP and the distributed monitoring from optical fiber sensor. Then, the distributed stress monitoring technology of this smart anchor is studied and proposed. With the distributed stress monitoring technology, this research then focuses on the stress distributed characteristics, load transfer mechanism and mechanical behavior of the smart anchor, through the model experiment and theoretical analysis. Also the model experiment and numerical simulation of the anchored slope under surface loading and continuous rainfall (two common disaster-inducing factors) are carried out and some smart anchors are used to strength the slope and monitor its stress distribution and evolution. Based upon the distributed stress monitoring technology of this smart anchor, the stability monitoring and assessment method of the anchored-slope is studied and proposed. Finally, these above approaches and techniques will be applied in identified projects to develop a demonstration..Through this research, the manufacturing process of the smart FRP anchor will be developed and its load transfer mechanism as well as distributed-stress evolution will be revealed. Also a convenient and practical approach for the stability monitoring and assessment of the anchored-slope will be proposed.
英文关键词: structure monitoring;anchored-slope stability;smart FRP anchor;optical fiber sensing technology;monitoring and assessment