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路基冻胀对高速列车-轨道耦合系统动力特性的影响 被引量:4

Impact of Roadbed Frost Heave on Dynamic Characteristics of High-speed Train-Track Structure Coupling System
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摘要 在车轨耦合动力学理论的基础上,通过对高速列车-无砟轨道-路基耦合系统模型有限元进行分析,研究高速铁路路基不均匀冻胀对列车、轨道的动力学影响,分析不同条件下冻胀变形引起的系统振动响应规律,进而提出相关改善措施以利于系统良性发展。结果表明,路基不均匀冻胀会引起列车与轨道产生互相影响的动态响应,降低了轨道结构的服役性能,同时不利于行车安全。在典型冻胀情况下,列车进入冻胀区域后,在起始位置受到振动所造成的影响比较大;随着路基冻胀波长的增加,对车体的振动影响相继减少,而冻胀峰值的影响则相反。对冻胀波长25 m范围内,特别是10~15 m路基冻胀进行整治,可增强行车安全性和乘坐的舒适性。同时,重点控制路基高冻胀峰值能有效减少轨道结构的疲劳损伤。 Based on the theory of vehicle track coupling dynamics,through the finite element analysis of the system model coupling high-speed train-ballastless track-subgrade,the dynamic influence of uneven frost heave of high-speed railway subgrade on the train and track was studied,the system vibration response caused by frost heave deformation under different conditions was analyzed,and relevant improvement measures to facilitate benign development of the system was proposed.Results show that uneven frost heaving of subgrade can affect normal interaction of train and track,shorten the service life of the track,and is risky to the safety.In a typical case of frost heaving,when a train entered into a frost heaving area,the impact caused by vibration at the initial position can be relatively large.With the increase in the frost heaving wavelength of subgrade,the impact on the vibration of the vehicle body decrease successively,while the impact of the frost heaving peak value is the opposite.The improvement at frost heave in the range of 25 m,especially 10~15 m,can enhance the driving safety and riding comfort.Controlling the peak area of subgrade frost heaving can effectively reduce the fatigue damage of track structure.
作者 蒙富佳 唐先习 刘博 王福久 MENG Fu-jia;TANG Xian-xi;LIU Bo;WANG Fu-jiu(School of Civil Engineering,Lanzhou University of Technology,Lanzhou 730050,China;Xining Public Works Section of China Railway Qinghai Tibet Group Co.,Ltd.,Xining 810000,China)
出处 《科学技术与工程》 北大核心 2021年第8期3310-3317,共8页 Science Technology and Engineering
基金 国家自然科学基金(5186080580) 青藏集团公司科技研究开发计划(QZ2019-G04)。
关键词 高速铁路 路基冻胀 车轨耦合 动力响应 high speed railway subgrade frost heave vehicle rail coupling dynamic response
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