受循环应力影响的路基淤泥质粘土冻胀特性:实验和预测模型

IF 6.9 1区 工程技术 Q1 ENGINEERING, GEOLOGICAL
Xufeng Lu , Xingmao Su , Decheng Feng , Annan Zhou , Feng Zhang
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引用次数: 0

摘要

为了研究交通荷载对冻胀行为的影响,使用改进的温控循环压缩剪切装置对淤泥质粘土进行了冻胀试验。这项研究采用了三种应力模式:垂直循环应力、水平循环剪切应力以及结合了垂直循环应力和水平循环剪切应力的复合循环应力。此外,研究还考虑了复合循环应力的振幅和频率的影响。试验结果表明,垂直循环应力可使试样致密,并抑制垂直位移的发展。垂直循环应力的泵送效应可促进冻胀过程中的吸水。与垂直循环应力相比,水平循环剪切应力会加剧原地冻胀,并引起轻微固结,从而显著增加垂直位移。在复杂的循环应力条件下,低振幅和低频率的垂直循环应力和水平循环剪切应力会增强垂直位移。提高冻胀比的主要因素是水平循环剪应力,这可能会导致冻土结构更加松散。最后,考虑到垂直循环应力、水平循环剪应力和加载频率的影响,建立了一个改进的冻胀比预测模型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Frost heave characteristics of subgrade silty clay affected by cyclic stress: Experiments and prediction model

To investigate the effects of traffic loads on frost heave behaviors, frost heave tests of silty clay soil were conducted using an improved temperature-controlled cyclic compression-shear device. This research employed three stress modes: vertical cyclic stress, horizontal cyclic shear stress, and complex cyclic stress that combines vertical cyclic stress with horizontal cyclic shear stress. Additionally, it considered the effects of the amplitude and frequency of complex cyclic stress. Test results show vertical cyclic stress densifies specimens and restrains vertical displacement development. Vertical cyclic stress's pumping effect promotes water absorption during frost heave. Horizontal cyclic shear stress can increase in-situ frost heave and induce minor consolidation than vertical cyclic stress, dramatically enhancing vertical displacement. Under complex cyclic stress conditions, vertical cyclic stress and horizontal cyclic shear stress at low amplitudes and frequencies enhance vertical displacement. The primary component that promotes the frost heave ratio is horizontal cyclic shear stress, which could lead to a looser frozen soil structure. Finally, an improved frost heave ratio prediction model was developed, considering the influences of vertical cyclic stress, horizontal cyclic shear stress, and loading frequency.

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来源期刊
Engineering Geology
Engineering Geology 地学-地球科学综合
CiteScore
13.70
自引率
12.20%
发文量
327
审稿时长
5.6 months
期刊介绍: Engineering Geology, an international interdisciplinary journal, serves as a bridge between earth sciences and engineering, focusing on geological and geotechnical engineering. It welcomes studies with relevance to engineering, environmental concerns, and safety, catering to engineering geologists with backgrounds in geology or civil/mining engineering. Topics include applied geomorphology, structural geology, geophysics, geochemistry, environmental geology, hydrogeology, land use planning, natural hazards, remote sensing, soil and rock mechanics, and applied geotechnical engineering. The journal provides a platform for research at the intersection of geology and engineering disciplines.
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