轨道抗弯曲特性

Proceedings of the Institution of Mechanical Engineers, Part F: Journal of Rail and Rapid Transit Pub Date : 2024-02-05 DOI:10.1177/09544097241231884

E. Kabo, A. Ekberg

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引用次数: 0

摘要

本研究首先对整个网络的轨道弯曲风险进行了分析，得出的结论是轨道弯曲与轨道上的几个 "薄弱点 "有关。为了找出这些薄弱点，研究人员开发了一个数值模型来预测轨道的抗弯曲性。利用创新的等效温度概念，对关键轨道参数的影响进行了评估和量化。这样就能以等效温度升高来量化曲线和悬挂枕木等的巨大影响。对于不太明确的轨道参数，如附近的固定点或最近的轨道工程，则通过轨道挠曲报告的统计评估来估算其影响。预测的影响一般与经验知识相符，但也有一些例外情况，报告中对此进行了讨论。所开发的模型和得出的结果对于确定有轨道塌陷风险的轨道区段以及评估缓解措施的有效性都很有价值。

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Characterisation of track buckling resistance

This study sets out with a network-wide analysis of the risk for track buckling that concludes that track buckling relates to a few “weak points” along the track. To identify these, a numerical model to predict track buckling resistance is developed. The influences of key track parameters are evaluated and quantified using the innovative concept of an equivalent temperature. This allows to quantify the large influence of for example, curves and hanging sleepers in terms of an equivalent increase in temperature. Influence of less well-defined track parameters such as nearby fixed points or recent track work is estimated through statistical assessment of track buckling reports. Predicted influence generally agrees with empirical knowledge with some exceptions that are discussed in the report. Developed models and produced results should be valuable in identifying track sections at risk of track buckling and in assessing effectiveness of mitigating actions.

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Proceedings of the Institution of Mechanical Engineers, Part F: Journal of Rail and Rapid Transit

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