Determining Patterns in the Stressed Deformed State of the Railroad Track Subgrade Reinforced With Tubular Drains

J. Luchko, V. Kovalchuk, I. Kravets, O. Gajda, A. Onyshchenko
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引用次数: 5

Abstract

The technical condition of the railroad track subgrade has been analyzed, as well as the issues related to ensuring its strength and stability when exposed to floodwaters and when the track's sections are overmoistened during operation. As a result, it has been established that it is necessary to develop methods aimed at improving the subgrade's carrying capacity. The georadar research has explored the problematic areas of the railroad track subgrade, based on which the distribution of subgrade heterogeneity in the vertical plane, as well as the boundaries of its location, were established. Therefore, georadar research makes it possible to detect hidden defective sites in the subgrade without disrupting its strength characteristics. A technique has been proposed to improve the carrying capacity of the failed subgrade of a railroad track using the combined arrangement of drainage pipes in the vertical and horizontal directions in the railroad embankment. The special feature of this technique is the possibility to drain water at the different levels of surface water, which provides for an increase in the carrying capacity of the failed subgrade. The strained-deformed state of the subgrade reinforced with tubular drainage has been investigated. The result has proven the effectiveness of the use of tubular drainages to improve the carrying capacity of the railroad track overmoistened subgrade exposed to constant and temporary loads. This study findings have established that the deformity of the subgrade increases when using tubular drainage, though this occurs only in the initial period of its arrangement, in further operation, when it removes water from the subgrade body, the carrying capacity of the subgrade, on the contrary, will improve due to the enhanced physical and mechanical properties of soils
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管状排水沟加固铁路路基应力变形状态模式的确定
分析了铁路轨道路基的技术条件,分析了铁路轨道路基暴露在洪水中、运行过程中路段过湿时保证路基强度和稳定性的相关问题。因此,有必要研究提高路基承载力的方法。地质雷达研究探索了铁路路基的问题区域,在此基础上建立了路基在垂直平面上的非均质性分布及其位置边界。因此,地质雷达的研究使得在不破坏路基强度特性的情况下发现路基中隐藏的缺陷部位成为可能。提出了一种在铁路路基内纵横两向组合布置排水管的方法,以提高铁路破坏路基的承载能力。这种技术的特殊之处在于,它可以在不同的地表水水平上排水,这就增加了破坏地基的承载能力。对管状排水加固路基的应变变形状态进行了研究。试验结果验证了采用管状排水技术提高铁路轨道过湿路基在恒荷载和临时荷载作用下的承载能力的有效性。本研究结果表明,采用管状排水会增加路基的变形,虽然这只发生在其布置的初始阶段,但在进一步的操作中,当它从路基体中除去水时,由于土壤的物理和机械特性的增强,路基的承载能力反而会提高
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