A comparative study of geosynthetically reinforced earth foundations in multi-utility transportation infrastructure for high-speed railways

IF 2.2 Q2 CONSTRUCTION & BUILDING TECHNOLOGY
Pranjal Mandhaniya, Anish Kumar Soni, Kirti Choudhary, Abdullah Ansari
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Abstract

A high-quality railway track resting on an excellent foundation is required to support high-speed railway transportation. The foundations of high-speed railway tracks are generally constructed on the lifted embankment with the improved ground using different reinforcement agents like geosynthetics and rigid lateral support. The present study performed dynamic finite element simulations on a ballasted rail track laid over a geosynthetically reinforced embankment with and without facing wall support. Three foundation geometries were analyzed to examine the effect of facing wall support and geosynthetics on the lateral resistance of the foundation. An area loaded with a constant pressure was moved at a constant speed, causing the load motion at different speeds in the 90–360 km/h range. Different parameters were calculated at node paths to help understand the lateral effect of moving load. The results showed that the lateral resistance based on nodal acceleration and velocity increased with facing wall support in the range of 40%–57%. Any increment over the minimum facing wall thickness of 300 mm does not significantly increase lateral resistance. Geosynthetics provided a vital function in the foundations with a less bulk volume of soil and increased the lateral resistance by 10%.
高速铁路多用途交通基础设施中土工合成加固地基的比较研究
要支持高速铁路运输,就必须在良好的地基上铺设高质量的铁路轨道。高速铁路轨道的地基一般是在抬高的路堤上建造的,并使用不同的加固材料,如土工合成材料和刚性侧向支撑。本研究对铺设在土工合成材料加固路堤上的有砟轨道进行了动态有限元模拟,包括有无面墙支撑。对三种地基几何形状进行了分析,以研究面墙支撑和土工合成材料对地基侧向阻力的影响。加载恒定压力的区域以恒定速度移动,导致荷载以 90-360 km/h 的不同速度运动。计算了节点路径上的不同参数,以帮助了解移动荷载的横向效应。结果显示,基于节点加速度和速度的侧向阻力随着面墙支撑的增加而增加,范围在 40%-57% 之间。超过最小面墙厚度 300 毫米的任何增量都不会显著增加侧向阻力。土工合成材料在土壤容积较小的地基中发挥了重要作用,并使侧向阻力增加了 10%。
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
Frontiers in Built Environment
Frontiers in Built Environment Social Sciences-Urban Studies
CiteScore
4.80
自引率
6.70%
发文量
266
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