Analysis of Key Influencing Factors of Track Dynamic Irregularity Induced by Earthquakes in the High-Speed Railway Track–Bridge System

IF 3 3区 工程技术 Q2 ENGINEERING, CIVIL
Wangbao Zhou, Jun Xiao, Shaohui Liu, Lizhong Jiang, Jian Yu, Lingzhi Zu, Lingxu Wu, Zhenbin Ren
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引用次数: 0

Abstract

Stiffness degradation of track–bridge systems under earthquake excitations can lead to track dynamic irregularity, impacting the safety of train operations post-earthquake. In this paper, the nonlinear time-history analysis of CRTS II track–bridge system model established by ANSYS finite element analysis software is carried out under the action of transverse random earthquake. The train–track–bridge system model considering the stiffness degradation caused by earthquake is established by MATLAB, and the earthquake-induced track dynamic irregularity sample library is constructed. The probability distribution mode of the power spectral density sample of the earthquake-induced track dynamic irregularity is explored and the calculation method based on the probability guarantee rate is proposed. The influence of structural damping ratio, train running speed and train type on the power spectral density curve of the earthquake-induced track dynamic irregularity is analyzed. The results show that the power spectrum samples of track dynamic irregularity conform to the hypothesis test of a normal distribution. The power spectral density of earthquake-induced dynamic irregularity primarily consists of medium and low-frequency components. When the structural damping ratio increases from 0.03 to 0.04, 0.04 to 0.05, 0.05 to 0.06, and 0.06 to 0.07, the variation gradients are 0.1701, 0.1240, 0.1034 and 0.0999, respectively, which indicates that the structural damping ratio has a significant effect on the power spectral density of earthquake-induced irregularity, and the impacts of train speed and train type on the power spectral density of near-fault earthquake-induced irregularity are minimal.

高速铁路轨道桥梁系统地震诱发轨道动态不规则的主要影响因素分析
地震激励下轨道桥系统的刚度退化会导致轨道动态不规则,影响震后列车运行安全。本文利用 ANSYS 有限元分析软件对 CRTS II 轨道桥系统模型进行了横向随机地震作用下的非线性时程分析。利用 MATLAB 建立了考虑地震引起刚度退化的列车轨桥系统模型,并构建了地震引起的轨道动态不规则样本库。探索了地震诱发轨道动力不规则度功率谱密度样本的概率分布模式,提出了基于概率保证率的计算方法。分析了结构阻尼比、列车运行速度和列车类型对地震诱发轨道动态不规则度功率谱密度曲线的影响。结果表明,轨道动态不规则度的功率谱样本符合正态分布的假设检验。地震诱发的动力不规则性的功率谱密度主要由中频和低频成分组成。当结构阻尼比从 0.03 增加到 0.04、0.04 增加到 0.05、0.05 增加到 0.06、0.06 增加到 0.07 时,变化梯度分别为 0.1701、0.1240、0.1034、0.0999,说明结构阻尼比对地震诱发不规则度功率谱密度的影响显著,列车速度和列车类型对近断层地震诱发不规则度功率谱密度的影响很小。
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来源期刊
CiteScore
5.30
自引率
38.90%
发文量
291
审稿时长
4 months
期刊介绍: The aim of this journal is to provide a unique forum for the publication and rapid dissemination of original research on stability and dynamics of structures. Papers that deal with conventional land-based structures, aerospace structures, marine structures, as well as biostructures and micro- and nano-structures are considered. Papers devoted to all aspects of structural stability and dynamics (both transient and vibration response), ranging from mathematical formulations, novel methods of solutions, to experimental investigations and practical applications in civil, mechanical, aerospace, marine, bio- and nano-engineering will be published. The important subjects of structural stability and structural dynamics are placed together in this journal because they share somewhat fundamental elements. In recognition of the considerable research interests and recent proliferation of papers in these subjects, it is hoped that the journal may help bring together papers focused on related subjects, including the state-of-the-art surveys, so as to provide a more effective medium for disseminating the latest developments to researchers and engineers. This journal features a section for technical notes that allows researchers to publish their initial findings or new ideas more speedily. Discussions of papers and concepts will also be published so that researchers can have a vibrant and timely communication with others.
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