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INVESTIGATION AND MITIGATION OF DIFFERENTIAL MOVEMENT AT RAILWAY TRANSITIONS FOR US HIGH SPEED PASSENGER RAIL AND JOINT PASSENGER/FREIGHT CORRIDORS

机译：美国高速客运铁路和联运客货运走廊铁路转轨差动的调查与缓解

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As with most highway bridges, railway transitions experience differential movements due to differences in track system stiffness, track damping characteristics, foundation type, ballast settlement from fouling and/or degradation, as well as fill and subgrade settlement. This differential movement is especially problematic for high speed rail infrastructure as the "bump" at the transition is accentuated at high speeds. Identification of different factors contributing towards this differential movement, as well as development of design and maintenance strategies to mitigate the problem is imperative for the safe and economical operation of both freight and passenger rail networks. This paper presents the research framework and preliminary findings from a recently initiated research effort at the University of Illinois at Urbana-Champaign. Aimed at developing design and repair techniques to mitigate differential movement at railway transitions, this research project involves instrumentation, performance monitoring and numerical modeling of new and existing track transitions.

机译：与大多数公路桥梁一样，由于轨道系统刚度，轨道阻尼特性，地基类型，因结垢和/或劣化引起的压载沉降以及填充和路基沉降的差异，铁路过渡会经历不同的运动。这种差异运动对于高速铁路基础设施尤其成问题，因为过渡时的“颠簸”在高速下会加重。对于货运和客运铁路网的安全和经济运行，必须确定导致这种差异运动的不同因素，并制定减轻该问题的设计和维护策略。本文介绍了伊利诺伊大学香槟分校最近发起的研究工作的研究框架和初步发现。旨在开发设计和维修技术以减轻铁路过渡处的差异运动，该研究项目涉及新轨道和现有轨道过渡的仪表，性能监控和数值建模。

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《ASME joint rail conference》|2012年|75-84|共10页
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Erol Tutumluer; Timothy D. Stark; Debakanta Mishra; James P. Hyslip;
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INVESTIGATION AND MITIGATION OF DIFFERENTIAL MOVEMENT AT RAILWAY TRANSITIONS FOR US HIGH SPEED PASSENGER RAIL AND JOINT PASSENGER/FREIGHT CORRIDORS

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