Use of recycled tyre segments to enhance the stability of ballasted track by increased confinement

IF 3 3区工程技术 Q2 ENGINEERING, GEOLOGICAL

Canadian Geotechnical Journal Pub Date : 2023-10-04 DOI:10.1139/cgj-2022-0666

Soumyaranjan Mishra, Buddhima Indraratna, Cholachat Rujikiatkamjorn, Trung Ngo

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引用次数: 0

Abstract

The most common railway ballast is produced by quarrying, and its mechanical characteristics are crucial for both stability and drainage for safer and faster rail operations. Ballasted tracks have certain drawbacks, primarily because ballast starts to degrade over time. In this regard, reducing the rate of ballast degradation is vital to enhance track longevity and minimise maintenance costs. This paper demonstrates how segments of waste rubber tyres (e.g. 3m in diameter) from the mining industry can improve stability of tracks, while contributing to reduced ballast deformation and degradation. By placing arched segments along the track shoulders beyond the edge of sleepers, the in-situ lateral confining pressure can be increased from 20-25 kPa (standard track) to 40-50 kPa. This novel idea of Confined-Caterpillar Track (CCT) was tested at a prototype physical model (1:1 scale) at the National Facility for the Heavy-haul Railroad Testing (NFHRT), and the experimental outcomes compared to the performance of a conventional track. Apart from constributing to at least 25% saving of quarried aggregates, the test results prove that the CCT concept can curtail the lateral displacement and settlement of the ballast layer, while reducing particle breakage and effecting significant stress reduction in the underlying substructure layers.

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使用回收轮胎段，通过增加约束来增强有碴轨道的稳定性

最常见的铁路道砟是由采石生产的，其机械特性对稳定性和排水至关重要，从而实现更安全、更快速的铁路运营。有碴轨道有一定的缺点，主要是因为随着时间的推移，压载物开始退化。在这方面，降低压舱物降解率对于提高轨道寿命和最大限度地降低维护成本至关重要。本文演示了来自采矿业的废橡胶轮胎(例如直径3米)如何提高轨道的稳定性，同时有助于减少压载物的变形和退化。通过在轨枕边缘以外沿轨道肩放置拱段，可将原位侧围压从20-25 kPa(标准轨道)提高到40-50 kPa。在美国国家重载铁路测试中心(NFHRT)的原型物理模型(1:1比例)上测试了这种新颖的封闭式履带式轨道(CCT)，并将实验结果与传统轨道的性能进行了比较。除了节省至少25%的采石集料外，试验结果证明，CCT概念可以减少压载层的侧向位移和沉降，同时减少颗粒破碎，并显著降低下伏子结构层的应力。

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

Canadian Geotechnical Journal 地学-地球科学综合

CiteScore

7.20

自引率

5.60%

发文量

163

审稿时长

7.5 months

期刊介绍： The Canadian Geotechnical Journal features articles, notes, reviews, and discussions related to new developments in geotechnical and geoenvironmental engineering, and applied sciences. The topics of papers written by researchers and engineers/scientists active in industry include soil and rock mechanics, material properties and fundamental behaviour, site characterization, foundations, excavations, tunnels, dams and embankments, slopes, landslides, geological and rock engineering, ground improvement, hydrogeology and contaminant hydrogeology, geochemistry, waste management, geosynthetics, offshore engineering, ice, frozen ground and northern engineering, risk and reliability applications, and physical and numerical modelling. Contributions that have practical relevance are preferred, including case records. Purely theoretical contributions are not generally published unless they are on a topic of special interest (like unsaturated soil mechanics or cold regions geotechnics) or they have direct practical value.

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