跨V型沟谷高路堤空间地形土拱特征分析

    ANALYSIS OF SOIL ARCH CHARACTERISTICS OF SPATIAL TOPOGRAPHY OF HIGH EMBANKMENT ACROSS V-SHAPED VALLEY

    • 摘要: 为揭示V型沟谷下路堤的地形土拱特征,首先通过相似配比试验得到试验填土配合比,再结合室内缩尺模型试验与数值计算方法,分析V型沟谷下路堤地形土拱产生机理,以及地形因子和填土材料参数对土拱特征的影响规律。结果表明:沟谷在竖直方向上呈现V字形,导致路堤与侧岸产生竖向相对位移,侧岸或沟谷底部作为稳定拱脚形成空间应力拱。从坡脚到一级护坡道范围内由于上覆土层高度太小无土拱特征,往路堤内部逐渐增强,到后缘起坡位置最明显,且主要存在路堤底部0.23倍路堤高度范围内。路堤填土高度增大,土拱效应增强,成拱区域向后缘扩大,拱脚由路堤底部向侧岸转移,拱长与拱厚逐渐增加;沟底宽度在15 m以内、侧岸角度在50°~70°、内摩擦角小于30°以及沟谷地基与填料弹性模量比大时,对土拱效应影响明显;接触面摩擦系数和弹性模量,对土拱效应影响较小,属于次要因素;路堤边坡坡率与黏聚力对土拱效应影响很小。地形土拱相比于一般类型土拱,地形土拱的拱脚范围、拱长与拱厚更大、拱形随深度自下而上逐渐由马鞍形转变为扁平圆弧形。成果可为建立V型沟谷下路堤边坡稳定性设计算方法提供参考。

       

      Abstract: Embankments constructed in V-shaped gullies(EVG)are commonly encountered in mountainous regions of China, yet the soil arching mechanism under such topographical conditions remains insufficiently studied. To address this, scaled model tests and numerical simulations were conducted based on similarity ratios determined for the filling materials, aiming to investigate the arching mechanism, analyze the influence of topographic factors and material properties, and elucidate the characteristics of soil arching in EVG. The results indicate that the spatial V-shape induces relative displacement between the embankment and the side banks, leading to the formation of a spatial stress arch with the side banks or gully bottom serving as the arch foot. The strength of the soil arch increases gradually from the slope toe toward the interior of the embankment, with the most pronounced effects observed at the starting cross-section of the embankment's rear edge and at 0.23 times the embankment height from the base. Increasing embankment height enhances the arching effect, expanding the arching area toward the rear, shifting the arch foot from the bottom to the side banks, and increasing both arch length and thickness. The most significant arching effects occur under the following conditions: bottom ditch width within 15 m, side bank angle between 50°~70°, internal friction angle of filling material less than 30°, and a higher ratio of elastic modulus of the valley foundation to that of the filler. The friction coefficient and elastic modulus of the contact surface have relatively minor influence on spatial arching, while the effects of slope rate and embankment cohesion are negligible. Compared to traditional soil arching, the EVG arch exhibits a broader arch foot range, an arch shape that transitions gradually from saddle-like to circular with height, and enhanced arch length and thickness from bottom to top. These findings provide a valuable reference for the design and stability analysis of EVG slopes.

       

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