Effect of Critical Factors Influencing Longitudinal Track Resistance Leveraging Field Experimentation

IF 1.6 4区工程技术 Q3 ENGINEERING, CIVIL

Transportation Research Record Pub Date : 2023-09-28 DOI:10.1177/03611981231187641

Marcus S. Dersch, Max Potvin, Arthur de O. Lima, J. Riley Edwards

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引用次数: 0

Abstract

As extreme temperatures increase, there is an increased need to ensure that continuous welded rail (CWR) stresses are more accurately set and better maintained. Therefore, to improve the management of CWR rail stresses and to increase safety through the reduction of buckled track derailments this paper documents the results from a field experimentation program of controlled single rail breaks (SRBs). SRBs were conducted at multiple field site locations to quantify the longitudinal resistance on both timber and concrete sleeper track. Accurate longitudinal resistance values are critical, because if the wrong value is selected, the rail neutral temperature could easily be set to a low value, increasing the probability of a track buckle or rail pull-apart, further compounding the impact of extreme temperatures. The results presented quantify the effect of sleeper and fastener type as well as ballast consolidation, and compare them with relevant results from the literature. From this, it was found that well-maintained concrete sleeper track exhibited a longitudinal resistance greater than the currently recommended value. Further, well-maintained timber sleeper track with anchors on every other sleeper exhibited a longitudinal resistance 44% lower than concrete sleeper track and 30% lower than timber track with anchors installed on every sleeper. Additionally, disturbing the ballast reduced the longitudinal resistance by 15%. Finally, the results indicated that slip was primarily occurring at the rail–sleeper interface for unanchored timber sleepers and at the sleeper–ballast interface for anchored timber sleepers and concrete sleepers.

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影响纵向轨道阻力关键因素的影响利用现场试验

随着极端温度的升高，需要确保更准确地设置和更好地保持连续焊接轨道(CWR)应力。因此，为了改善CWR轨道应力管理，通过减少屈曲轨道脱轨来提高安全性，本文记录了受控单轨断裂(SRBs)现场试验项目的结果。在多个现场地点进行了srb，以量化木材和混凝土轨枕轨道的纵向阻力。准确的纵向电阻值至关重要，因为如果选择了错误的值，轨道中性温度很容易被设置为较低的值，从而增加轨道卡扣或轨道撕裂的可能性，进一步加剧极端温度的影响。本文的结果量化了轨枕、扣件类型以及压载物固结的影响，并与文献中的相关结果进行了比较。由此发现，维护良好的混凝土轨枕轨道的纵向阻力大于目前的推荐值。此外，维护良好的木质轨枕轨道比混凝土轨枕轨道纵向阻力低44%，比木质轨枕轨道纵向阻力低30%。此外，干扰镇流器可使纵向阻力降低15%。结果表明，滑移主要发生在未锚固的木枕木与轨枕交界面，以及锚固的木枕木与混凝土枕木与轨枕交界面。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Transportation Research Record 工程技术-工程：土木

CiteScore

3.20

自引率

11.80%

发文量

918

审稿时长

4.2 months

期刊介绍： Transportation Research Record: Journal of the Transportation Research Board is one of the most cited and prolific transportation journals in the world, offering unparalleled depth and breadth in the coverage of transportation-related topics. The TRR publishes approximately 70 issues annually of outstanding, peer-reviewed papers presenting research findings in policy, planning, administration, economics and financing, operations, construction, design, maintenance, safety, and more, for all modes of transportation. This site provides electronic access to a full compilation of papers since the 1996 series.