ISSN 1003-8035 CN 11-2852/P

    路堑边坡浅层塌滑的控制因素与生态防治措施以双达公路边坡为例

    Analysis on factors controlling shallow failures of the cut slopes and its prevention by bio-engineering measures: A case study of the cut slopes along the highway from Shuangcheng to Dajiali

    • 摘要: 有效掌握边坡浅层塌滑机制及其影响因素的主次关系是开展路堑边坡变形预测及塌滑治理的重要前提。为此,以阵雨条件下甘肃省双达高速某路堑边坡为研究对象,首先通过FLAC3D有限元软件平台编写FISH语言,实现饱和度、重度和土体抗剪强度之间的动态关联,然后求解不同降雨强度、坡比和降雨历时条件下路堑边坡的安全系数,并基于灰色关联理论确定路堑边坡浅层塌滑主要外界因素的主次关系,最后通过室内降雨试验和现场生态防护试验总结出路堑边坡浅层塌滑机制,提出浅层塌滑生态防治措施。研究表明:降雨过程中,路堑边坡破坏模式由深层整体滑动向浅层局部滑动演化,且随坡比的降低,浅层塌滑区域由路堑边坡的坡肩部位向坡脚部位演化;相比降雨强度和降雨历时,坡比对路堑边坡浅层塌滑影响性最大;降雨过程中,路堑边坡浅层土体累计冲蚀率随时间呈现出先降低后增加的趋势,设置拱骨架和降低坡比均能提高路堑边坡浅层土体的抗塌滑能力;相比HP-FGM和EFM防护材料,聚丙烯纤维土防护材料时效性最理想,路堑边坡浅层塌滑生态治理效果最好。

       

      Abstract: Understanding the primary and secondary relations of influencing factors is crucial for predicting deformation and controlling collapse in cutting slopes. Using a cutting slope along the Shuangcheng to Dalijia expressway in Gansu Province as the research object, this research utilized the FLAC3D finite element software platform to establish dynamic correlations between saturation, gravity, and soil shear strength through FISH language. Based on this, safety factors of the cutting slope were calculated under different rainfall intensities, slope ratios, and rainfall duration. Grey relational theory was applied to determine the primary and secondary relationships of key factors affecting shallow collapse of cutting slopes under rainfall conditions. Indoor rainfall experiments and on-site ecological protection tests were conducted to summarize the shallow collapse mechanism and propose the environmental control measures. The study revealed that the failure mode of cutting slopes transitioned from deep overall sliding to shallow local sliding during rainfall. As the slope ratio decreased, the shallow collapse area gradually shifted from the slope shoulder to the foot of the cutting slope. Cumulative erosion rates of shallow soil in cutting slopes decreased initially and then increased over time during rainfall. Installing arch skeletons and reducing the slope ratio enhanced the cutting slope's resistance against shallow collapses. Among with the protective materials, polypropylene fiber-reinforced soil protective materials exhibited the best timeliness and ecological control effect for shallow collapses of cutting slopes compared to HP-FGM and EFM materials.

       

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