使用Resensys无线传感器的塔赫亚斜拉桥SHM

A. Elbaz, K. Heiza, H. Marzouk, O. Nawawy
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摘要

结构健康监测(SHM)已经成为我们日常生活中的一个基本概念。它涉及许多学科,包括土木工程、航空航天工程、机械工程和海洋工程等。它可以在剩余寿命的每一个时刻对结构状态进行诊断,提高对结构行为的理解,并通过一些设备(传感器)检测结构的任何组件或整个结构发生的任何变化,这些设备(传感器)可以是有线的或无线的,在安装在结构上或被研究的部分上的组件中结合了微型和纳米技术。这些传感器是数据收集器,通过通信系统将数据发送到笔记本电脑或计算机进行处理。这些数据有助于决策者确定结构的剩余寿命以及是否需要维护或重建。本研究采用瑞森斯SenSpotTM传感器,开发了塔希亚斜拉桥的无线SHM系统。建议采用以下方法来实现这一目标。无线传感器用于测量应变和监测振动、应变、倾斜、倾斜、温度和湿度。这些测量有助于建立一个参考数据集,可用于监测和检测表明损坏的结构行为的变化。本研究成功地评估了Resensys SenSpotTM无线技术的可行性,并简要概述了适用于斜拉桥塔架系统的基于振动和阻抗的SHM技术。最后,埃及的Tahya Masr斜拉桥作为智能传感器适用性的成功试验场。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
SHM of Tahya Masr Cable-Stayed Bridge Using Resensys Wireless Sensors
Structural Health Monitoring (SHM) is now a fundamental idea in our daily lives. It is related to many disciplines, including Civil Engineering, Aerospace Engineering, Mechanical Engineering, and Marine Engineering, among others. It provides a diagnosis of the structure's state at every moment of its residual life, improves understanding of structural behavior, and detects any change that occurs to any component of it or for the entire structure via some devices (Sensors) that may be wired or wireless, incorporating micro and nanotechnology in their components putting on it or on the part under study. These sensors are data collectors that send data to a laptop or computer for processing via a communication system. These data assist decision-makers in determining the structure's residual life and whether it requires maintenance or rebuilding. The wireless SHM system of a Tahya Masr cable-stayed bridge is developed in this study using Resensys SenSpotTM Sensors. The following approaches are suggested to achieve the goal. Wireless sensors were used to measure strain and monitor vibration, strain, inclination, tilt, temperature, and humidity. These measurements help to develop a reference data set that can be used to monitor and detect changes in structural behavior that indicate damage. This study successfully assessed the viability of Resensys SenSpotTM wireless, and it provided a brief overview of vibration- and impedance-based SHM techniques appropriate for the cable-stayed bridge's pylon system. Finally, the Tahya Masr cable-stayed bridge in Egypt served as a successful test site for the smart sensor's applicability.
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