GOALI: Distributed Active Acoustic Sensing using a Single Optical Fiber for Interfacial Structural Health Monitoring of Reinforced Concrete Structures

GOALI：使用单根光纤进行分布式主动声学传感，用于钢筋混凝土结构的界面结构健康监测

• 批准号: 1401369
• 负责人: Xingwei Wang
• 金额: $ 29.7万
• 依托单位: University of Massachusetts Lowell
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2014
• 资助国家: 美国
• 起止时间: 2014-07-01 至 2018-06-30
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1401369&HistoricalAwards=false
• 关键词: GOALI; Distributed; Active; Acoustic; Sensing

This Grant Opportunity for Academic Liaison with Industry (GOALI) project investigates effective sensing methodologies to assess the integrity of the interface between steel bars and concrete in reinforce concrete (RC) structures. The approach consists in the application of active acoustic interrogation with optical fibers-based sensing. The combination of the two modalities will allow sensing a multiple locations, which will significantly improve the ability to detect defects and structural degradations. The results of the research will benefit structural health monitoring and nondestructive testing of many structures components. One representative example is the detection of early-stage steel rebar corrosion in concrete structures. NACE (National Association of Corrosion Engineers) estimates the cost of corrosion damage repair in concrete structures in the USA is approximately $125 billion per year. Corrosion of steel rebars in RC structures is primarily responsible for the deterioration and immature failure of RC structures. Sensing capability to detect early-stage rebar corrosion can greatly reduce the cost for rebuild/repair, routine maintenance efforts, and the unnecessary social costs (e.g., traffic closure) in construction. More importantly, unpredictable structural failures can be prevented, especially for signature buildings and bridges. This research will not only change the current practice for monitoring steel rebar corrosion in RC structures, but also wil be applied to the corrosion monitoring of prestressed concrete structures, steel pipelines, nuclear power plants, and other critical civil infrastructure systems using steel. Educational efforts will motivate K-12 and undergraduate students for research, especially those from the underrepresented groups.The specific research goal is to study the sensing mechanism at the interface between steel reinforcing bars (rebars) and concrete in reinforced concrete (RC) structures using distributed active acoustic sensing. This will be achieved by i) investigating the active single-point probing/ sensing problem in a circular geometry; and ii) creating a distributed active acoustic optical fiber sensor. The sensor will be attached to the surface of steel rebars burned inside concrete, capable of probing into the steel rebars and assessing structural health of the interface between steel and concrete.

该资助机会学术与工业联络 (GOALI) 项目研究有效的传感方法，以评估钢筋混凝土 (RC) 结构中钢筋和混凝土之间界面的完整性。该方法包括应用基于光纤传感的主动声学询问。两种模式的结合将允许感测多个位置，这将显着提高检测缺陷和结构退化的能力。研究结果将有利于结构健康监测和许多结构部件的无损检测。一个代表性的例子是混凝土结构中早期钢筋腐蚀的检测。 NACE（美国腐蚀工程师协会）估计，美国混凝土结构腐蚀损坏修复的成本每年约为 1,250 亿美元。钢筋混凝土结构中钢筋的腐蚀是导致钢筋混凝土结构劣化和未成熟失效的主要原因。检测早期钢筋腐蚀的传感能力可以大大降低重建/维修、日常维护工作的成本以及施工中不必要的社会成本（例如交通堵塞）。更重要的是，可以防止不可预测的结构故障，尤其是标志性建筑和桥梁。这项研究不仅将改变目前钢筋混凝土结构中钢筋腐蚀监测的做法，还将应用于预应力混凝土结构、钢管道、核电站和其他使用钢材的关键民用基础设施系统的腐蚀监测。教育工作将激励 K-12 学生和本科生进行研究，特别是来自代表性不足群体的学生。具体研究目标是研究钢筋混凝土 (RC) 结构中钢筋 (rebar) 和混凝土之间界面的传感机制，利用分布式主动声学传感。这将通过 i) 研究圆形几何形状中的主动单点探测/传感问题来实现； ii) 创建分布式有源声学光纤传感器。该传感器将附着在混凝土内燃烧的钢筋表面，能够探测钢筋并评估钢筋与混凝土界面的结构健康状况。