Model Updating Method for Vehicle-Track System Based on Field Measurement

被引：0

作者：

Wang Y. ^{[1
]}

Jiao B. ^{[1
]}

Yau J. ^{[2
]}

Shi J. ^{[1
]}

机构：

[1] School of Civil Engineering, Beijing Jiaotong University, Beijing

[2] Department of Architecture, Tamkang University, Taipei

来源：

| 2018年 / Nanjing University of Aeronautics an Astronautics卷 / 38期

关键词：

Filed testing; Model updating; Subway; Vehicle/track system;

D O I：

10.16450/j.cnki.issn.1004-6801.2018.02.020

中图分类号：

学科分类号：

摘要：

In this paper, a novel model updating method for the vehicle/track system in the subway is put forward. Present study indicates that the train speeds and fastening system stiffness are two key issues dominating the model updating process of the track subway system. For demonstration, a vehicle/track coupling model based on the multi-body system is presented and the dynamic response of track system subjected to the moving train is computed using an iterative method. Then, a typical subway track in service is selected for the present investigation to capture field testing data. The numerical predictions of the dynamic response of track computed by the proposed model updating method are verified and compared with the field testing results. The following conclusions are drawn: (1) the fastening system stiffness plays a more dominating role in affecting the dynamic response of the track than that of the fastening system damping; (2) updating the running speeds can influence the major excitation frequencies of running vehicle on the tracks, which may produce more consistent results referred to as field measurement; (3) updating fastening system stiffness may result in denser distribution of frequency amplitudes; and (4) the spectrum of rail displacements is dominated by n times of the first order train loadings since the effects of multiple supports on the track structures are taken into account. © 2018, Editorial Department of JVMD. All right reserved.

引用

页码：346 / 352

页数：6

共 13 条

[1] Friswell M.I., Mottershead J.E., Finite Element Model Updating in Structural Dynamics, pp. 98-105, (1995)
[2] Han W., Wang T., Li Y., Et al., Analysis system of vehicle-bridge coupling vibration with grillage method based on model updating, China Journal of Highway and Transport, 24, 5, pp. 47-55, (2011)
[3] Yin X., Liu Y., Peng H., Et al., Impact factors of a bridge with poor road roughness under moving vehicular loads, Journal of Vibration Engineering, 26, 4, pp. 531-538, (2013)
[4] Feng D., Feng M.Q., Model updating of railway bridge using in situ dynamic displacement measurement under trainloads, Journal of Bridge Engineering, 20, 12, (2015)
[5] Garcia-Palencia A.J., Santini-Bell E., Sipple J.D., Et al., Structural model updating of an in-service bridge using dynamic data, Structural Control & Health Monitoring, 22, 10, pp. 1265-1281, (2015)
[6] Zhu T., Xiao S., Yang G., Et al., Vertical wheel/rail force identification method for railway vehicle and its test validation, Journal of Vibration, Measurement & Diagnosis, 35, 5, pp. 892-896, (2015)
[7] Zheng G., Qi A., Yan X., Research on acceleration of vibration source from Fuzhou metro considering vehicle-track vertical coupled model of vibration, Journal of Vibration, Measurement & Diagnosis, 35, 2, pp. 328-333, (2015)
[8] Wang Y.J., Mao Y.X., Hu A.Q., Numerical simulation of a metro vehicle running over rail with fastening system failure using finite element method, Journal of Vibroengineering, 17, 3, pp. 1488-1498, (2015)
[9] Shi J., Chan A.H., Burrow M.P.N., Influence of unsupported sleepers on the dynamic response of a heavy haul railway embankment, Proceedings of the Institution of Mechanical Engineers Part F-Journal of Rail and Rapid Transit, 227, 6, pp. 657-667, (2013)
[10] Zhang H., Selection for track structure type of urban rail transit, Railway Construction Technology, 10, pp. 70-73, (2013)

← 1 2 →