根系加固土壤在交通诱导循环荷载作用下的变形特征

IF 4.9 2区工程技术 Q1 ENGINEERING, CIVIL

Transportation Geotechnics Pub Date : 2024-11-01 DOI:10.1016/j.trgeo.2024.101424

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引用次数: 0

摘要

公路和铁路附近的斜坡既要承受静载荷，又要承受车辆和火车引起的动载荷，承受着不同程度的机械应力。由于长期循环荷载会削弱土壤强度并产生过度变形，因此有必要研究根系分布对循环荷载下根系加固土壤变形特性的影响。在考虑加载频率、动应力幅值和根系分布属性的情况下，以土壤应力状态为重点，进行了动态三轴试验，以研究循环加载引起的变形特征。结果表明，在动态荷载作用下，交叉排列的效果优于其他排列方式。根系交叉排列可使土壤塑性变形减少 70% 至 80%，弹性变形减少 30% 至 40%。通过根系布置，土壤的抗瞬态变形能力显著增强，而根系交叉布置则使土壤的动模量和阻尼比显著提高了约 200%。研究证实，Hardin 和 Drnevich 双曲线模型具有优异的一致性，可有效用于分析根加固土壤。

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Deformation characteristics of root-reinforced soil under traffic induced cyclic loading

The slopes adjacent to highways and railroads, which are subjected to both static loads and dynamic loads induced by vehicles and trains, undergo mechanical stresses of varying magnitudes. As long-term cyclic loading can weaken the soil strength and generate excessive deformation, it is necessary to investigate the influence of root distribution on the deformation characteristics of soil reinforced by roots under cyclic loading. With a special focus on the soil stress state, dynamic triaxial tests were conducted to investigate the deformation characteristics induced by cyclic loading, accounting for loading frequency, dynamic stress amplitude and root distribution attributes. The results demonstrate that the crossed arrangement outperforms other patterns under dynamic loads. Root crossed arrangement reduces the plastic deformation of the soil by 70% to 80% and the resilient deformation by 30% to 40%. The soil transient deformation resistance is significantly enhanced through root arrangement, while root cross arrangement leads to a remarkable improvement in the soil dynamic modulus and damping ratio by approximately 200%. The confirmation was obtained that the Hardin and Drnevich hyperbolic model exhibited exceptional conformity and could be effectively employed in analyzing root-reinforced soil.

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来源期刊

Transportation Geotechnics Social Sciences-Transportation

CiteScore

8.10

自引率

11.30%

发文量

194

审稿时长

51 days

期刊介绍： Transportation Geotechnics is a journal dedicated to publishing high-quality, theoretical, and applied papers that cover all facets of geotechnics for transportation infrastructure such as roads, highways, railways, underground railways, airfields, and waterways. The journal places a special emphasis on case studies that present original work relevant to the sustainable construction of transportation infrastructure. The scope of topics it addresses includes the geotechnical properties of geomaterials for sustainable and rational design and construction, the behavior of compacted and stabilized geomaterials, the use of geosynthetics and reinforcement in constructed layers and interlayers, ground improvement and slope stability for transportation infrastructures, compaction technology and management, maintenance technology, the impact of climate, embankments for highways and high-speed trains, transition zones, dredging, underwater geotechnics for infrastructure purposes, and the modeling of multi-layered structures and supporting ground under dynamic and repeated loads.