地铁振动下的轨道结构应力波传播特性
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作者单位:

1.同济大学 土木工程学院,上海 200092;2.浙江舜创智能光学科技有限公司,浙江 宁波 315400

作者简介:

李杨(1992- ),男,博士生,主要从事结构振动研究,E-mail:Liyangtiantian@163.com。
LI Yang (1992- ), PhD candidate, main research interest: structural vibration, E-mail: Liyangtiantian@163.com.

通讯作者:

杨霞(通信作者),女,博士生,E-mail:xiay@tongji.edu.cn。

中图分类号:

U211.3

基金项目:

上海市科委课题(21DZ1204400)


Stress wave propagation characteristics in track structures under subway vibrations
Author:
Affiliation:

1.College of Civil Engineering, Tongji University, Shanghai 200092, P. R. China;2.Zhejiang Sunnyinnovation Optical Intelligence Technology Co., LTD., Ningbo 315400, Zhejiang, P. R. China

Fund Project:

Project of Shanghai Science and Technology Commission (No. 21DZ1204400)

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    摘要:

    在地铁运行过程中钢轨上产生的振动以应力波的形式沿着钢轨-轨底垫片-轨枕-道床-隧道-土体的路径传播。为探究传播路径中应力波的基础特性变化规律,在室内搭建一段地铁隧道钢轨模型,用激光多普勒测振仪测量试验模型不同部位的应力波信号,并通过扫描式测振仪获取钢轨不同表面应力波波场的真实传播过程;同时,采用有限元仿真软件LS-DYNA,从图像角度对应力波传播过程中的波场变化特征进行对比分析。结果表明:钢轨上由轮轨相互作用激励产生的应力波信号主要以25~400 Hz低频信号及1 400 Hz高频信号为主,最终传播至土体内的应力波信号主要集中在25~200 Hz低频范围;与实测数据对比发现,搭建的钢轨试验模型在动力性能方面与实际地铁隧道基本一致;信号数据分析及波场云图结果均显示,应力波的高频成分在从钢轨传播至混凝土轨枕的阶段衰减最明显,信号能量传递率也最低;通过对比激光多普勒测振仪实测与计算机仿真的应力波波场可知,可从图像层面直观验证计算机仿真方法的正确性;对于复杂介质和模型中的波场研究,可采用激光多普勒测振仪的实测结果替代计算机仿真结果。

    Abstract:

    During the operation of a subway, vibrations generated on steel rails propagate in the form of stress waves along the path: rail-rail pad-sleeper-ballast-tunnel-soil. In order to investigate variations in the fundamental characteristics of stress waves along this propagation path, we constructed an indoor model of a subway tunnel with steel rails. A Laser Doppler Vibrometer (LDV) was used to measure stress wave signals at different locations of the experimental model, and a scanning LDV was employed to capture the real propagation process of stress waves on different surfaces of the steel rails. Finally, the finite element simulation software LS-DYNA was utilized to perform a comparative analysis of the changes in wave field characteristics during stress wave propagation from an image perspective. The research results indicate that the stress wave signals generated by the wheel-rail interaction on the steel rails are mainly characterized by low-frequency signals ranging from 25 to 400 Hz and high-frequency signals at 1 400 Hz. Conversely, the stress wave signals propagating into the soil primarily consist of low-frequency signals ranging from 25 to 200 Hz. A comparison between the measured data and test results of the experimental model demonstrates that the steel rail model exhibits dynamic performance consistent with the actual subway tunnel. The analysis of signal data and wave field contour maps both indicate that the high-frequency components of stress waves attenuate most rapidly during propagation from the steel rail to the concrete sleeper, exhibiting the lowest signal energy transfer rate. The comparison of stress wave fields from LDV measurement and computer simulation intuitively validates the accuracy of the simulation method from an image perspective. Additionally, this study suggests that LDV measurement results can serve as an alternative to computer simulation results for investigating wave fields in complex media and models.

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李杨,孔庆钊,杨霞,周杨彬,朱福钢.地铁振动下的轨道结构应力波传播特性[J].土木与环境工程学报(中英文),2026,48(4):198-209. LI Yang, KONG Qingzhao, YANG Xia, ZHOU Yangbin, ZHU Fugang. Stress wave propagation characteristics in track structures under subway vibrations[J]. JOURNAL OF CIVIL AND ENVIRONMENTAL ENGINEERING,2026,48(4):198-209.10.11835/j. issn.2096-6717.2024.069

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  • 收稿日期:2024-05-19
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  • 在线发布日期: 2026-07-08
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