Advantages of using CONCRETE CANVAS materials in railway track construction

B. Eller, S. Szalai, M. Sysyn, D. Harrach, J. Liu
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Abstract

Purpose. Justification of the feasibility of using new types of drainage materials, such as Concrete Canvas (CC), under the upper structure of the railway permanent way. Methodology. The tasks were solved by a complex research method, including analysis and generalization of literary and patent sources, analytical, experimental studies, using computer and mathematical modeling methods. Tests were conducted with and without the CC layer in a multi-level shear box. After the shear test, the specimens were also tested for load-bearing capa­city (E2, according to the Hungarian standard) and particle breakage. The contact surface between the bottom of the ballast and the CC was measured using a precision 3D laser scanner (GOM ATOS) and visualized graphically using AutoCAD software. Findings. Experimental testing of the vertical load during connection and analysis compared with the test results of geocomposite/geogrid structures, internal shear resistance, and other parameters proved the structure’s higher load-bearing capacity with the CC layer. Based on the results, the Concrete Canvas structure provides higher reinforcement than the average geogrid type. Originality. The advantages of using new Concrete Canvas materials in the structure of a railway track have been demonstrated for the first time to provide greater internal shear resistance than the average for geogrids. Practical value. These results may provide primary data for using Concrete Canvas in railway tracks and superstructures in the future.
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在铁路轨道施工中使用混凝土帆布材料的优势
目的。论证在铁路永久通道上部结构下使用混凝土帆布(CC)等新型排水材料的可行性。研究方法。采用复杂的研究方法来完成任务,包括对文献和专利资料进行分析和归纳,利用计算机和数学建模方法进行分析和实验研究。在多层剪切箱中进行了有 CC 层和无 CC 层的试验。剪切试验后,还对试样进行了承载能力(E2,根据匈牙利标准)和颗粒破碎测试。使用精密三维激光扫描仪(GOM ATOS)测量了道碴底部与 CC 之间的接触面,并使用 AutoCAD 软件绘制了可视化图形。结果。对连接过程中的垂直荷载进行了实验测试,并与土工复合材料/土工格栅结构的测试结果、内部抗剪能力和其他参数进行了分析比较,证明了带有 CC 层的结构具有更高的承载能力。根据测试结果,混凝土帆布结构比一般的土工格栅结构具有更高的加固能力。独创性。首次证明了在铁路轨道结构中使用新型混凝土帆布材料的优势,其内部抗剪能力高于土工格栅的平均水平。实用价值。这些结果可为今后在铁路轨道和上层建筑中使用混凝土帆布提供原始数据。
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CiteScore
1.70
自引率
0.00%
发文量
148
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