Comparative study on sensitivity of acceleration and strain responses for bridge health monitoring

Smriti Sharma, Sunil Kumar Dangi, Shivam Kumar Bairwa, Subhamoy Sen
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引用次数: 5

Abstract

ABSTRACT Bridge health monitoring has been attempted to ensure the safety of the bridges in their operations, employing various measurement options like acceleration, strain, displacement, etc. The relative efficacy of these measurements as a damage-sensitive response has remained a topic of research. While acceleration has traditionally been used in abundance, dynamic strain, being relatively cheaper to record, also holds the potential to replace acceleration. This study undertakes a comparative investigation weighing the relative benefits of both the measurement options for prompt and reliable damage detection in both the time and frequency domain. The comparison is drawn in the light of damage sensitivity, intensity and consistency of the damage signature of the adopted measurement type while keeping the damage and loading specifications unaltered. A multi-span concrete box girder has been replicated with a high-fidelity numerical model as a proxy for the real structure followed by an experimental validation on a propped cantilever beam. Acceleration and strain responses are measured and analyzed for different damage conditions. A rigorous sensitivity analysis is undertaken to compare explicitly the performance of both the measurement options. The results demonstrated superior performance with the strain response in time and frequency domains from consistency and intensity perspectives.
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桥梁健康监测中加速度与应变响应灵敏度的比较研究
摘要:桥梁健康监测一直试图确保桥梁在其运行中的安全,采用各种测量选项,如加速度,应变,位移等。这些测量作为损伤敏感反应的相对功效仍然是一个研究课题。虽然加速度在传统上被大量使用,动态应变,相对便宜的记录,也有可能取代加速度。本研究进行了一项比较调查,权衡了两种测量方法在时域和频域的相对优势,以实现快速可靠的损伤检测。在保持损伤和加载规格不变的情况下,根据所采用的测量类型的损伤灵敏度、强度和损伤特征的一致性进行比较。用高保真数值模型模拟了多跨混凝土箱梁的实际结构,并在悬臂梁上进行了试验验证。测量和分析了不同损伤条件下的加速度和应变响应。进行了严格的敏感性分析,以明确比较两种测量方案的性能。结果表明,从一致性和强度的角度看,该方法在时域和频域上具有较好的应变响应性能。
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来源期刊
CiteScore
3.90
自引率
9.50%
发文量
24
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