Vertical dynamic measurements of a railway transition zone: a case study in Sweden

IF 3.6 2区 工程技术 Q1 ENGINEERING, CIVIL Journal of Civil Structural Health Monitoring Pub Date : 2024-02-21 DOI:10.1007/s13349-024-00766-0
Siwarak Unsiwilai, Chen Shen, Yuanchen Zeng, Li Wang, Alfredo Núñez, Zili Li
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Abstract

This study presents a measuring framework for railway transition zones using a case study on the Swedish line between Boden and Murjek. The final goal is to better understand the vertical dynamics of transition zones using hammer tests, falling weight measurements, and axle box acceleration (ABA) measurements. Frequency response functions (FRFs) from hammer tests indicate two track resonances, for which the FRF magnitudes on the plain track are at least 30% lower than those at the abutment. The falling weight measurements indicate that the track on the bridge has a much higher deflection than the track on the embankment. Two features from ABA signals, the dominant spatial frequency and the scale average wavelet power, show variation along the transition zone. These variations indicate differences in track conditions per location. Finally, the ABA features in the range of 1.05–2.86 m−1 are found to be related to the track resonance in the range of 30–60 Hz. The findings in this paper provide additional support for physically interpreting train-borne measurements for monitoring transition zones.

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铁路过渡区垂直动态测量:瑞典案例研究
本研究通过对瑞典博登和穆尔耶克之间线路的案例研究,提出了铁路过渡区的测量框架。最终目标是通过锤击试验、落重测量和轴箱加速度 (ABA) 测量,更好地了解过渡区的垂直动态。锤击试验的频率响应函数(FRF)显示了两个轨道共振,其中平轨道上的 FRF 幅值比基台处的 FRF 幅值至少低 30%。坠重测量结果表明,桥上轨道的挠度远高于堤坝上的轨道。ABA 信号的两个特征,即主导空间频率和尺度平均小波功率,显示了沿过渡区的变化。这些变化表明每个位置的轨道状况存在差异。最后,发现 1.05-2.86 m-1 范围内的 ABA 特征与 30-60 Hz 范围内的轨道共振有关。本文的研究结果为实际解释用于监测过渡区的列车传播测量结果提供了更多支持。
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来源期刊
Journal of Civil Structural Health Monitoring
Journal of Civil Structural Health Monitoring Engineering-Safety, Risk, Reliability and Quality
CiteScore
8.10
自引率
11.40%
发文量
105
期刊介绍: The Journal of Civil Structural Health Monitoring (JCSHM) publishes articles to advance the understanding and the application of health monitoring methods for the condition assessment and management of civil infrastructure systems. JCSHM serves as a focal point for sharing knowledge and experience in technologies impacting the discipline of Civionics and Civil Structural Health Monitoring, especially in terms of load capacity ratings and service life estimation.
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