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Earthquake Influence on the Rail Irregularity on High-Speed Railway Bridge

Zhipeng Lai, Xin Kang, Lizhong Jiang, Wangbao Zhou, Yulin Feng, Yuntai Zhang, Jian Yu, Leixin Nie

2020Shock and Vibration44 citationsDOIOpen Access PDF

Abstract

Rail irregularity is the leading cause of enhancing train-track coupling vibration and, therefore, should be studied in detail for safety requirements. In this study, the differences between existing rail irregularities without being subjected to an earthquake between different countries were first studied. Results show that existing power spectrum density and time-domain displacement samples of rail irregularities in the American code are the largest, while the irregularities of the Germany railway are higher than those of China in a specific range of rail wavelengths. Afterward, the effects of earthquake intensity, soil site, and duration on the rail irregularity of a Chinese typical high-speed railway bridge were investigated. For this purpose, a finite element model was established and validated by the shaking table test of a 1/12-scaled high-speed railway bridge experimental specimen. The calculation results indicated that the influences of earthquakes on the rail alignment irregularity were evident.

Topics & Concepts

Structural engineeringBridge (graph theory)Earthquake shaking tableTrack (disk drive)VibrationEngineeringFinite element methodDisplacement (psychology)GeologyAcousticsMechanical engineeringPsychotherapistPhysicsMedicinePsychologyInternal medicineRailway Engineering and DynamicsGeotechnical Engineering and Underground StructuresStructural Engineering and Vibration Analysis
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