受膨胀压力影响的带加固路基的小容量混凝土道路的参数分析

IF 1 Q4 ENGINEERING, CIVIL Journal of Applied Engineering Sciences Pub Date : 2024-05-01 DOI:10.2478/jaes-2024-0007
Ashwini V. Chavan, S. Bhosale
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引用次数: 0

摘要

本文介绍了一个由小体积混凝土路面、基层和加筋膨胀土组成的组合系统的参数分析,该系统受到车轮荷载和膨胀土的应力作用。分析中考虑了土壤-结构相互作用模型,其中路面和钢筋被理想化为有限梁,具有平面应变条件,而基层和膨胀土则被模拟为不同刚度的温克勒弹簧。在分析过程中,考虑到土工合成材料加固层(可以是土工格栅、土工格室或两者的组合形式)具有弯曲刚度,并位于基层和膨胀性基层的界面处。加固层顶部承受车轮荷载、路面板自重和基层附加荷载造成的应力,底部承受来自基层的膨胀压力。推导出了该模型挠曲响应的控制微分方程,并以非维度形式给出了闭式解。参数分析结果表明,路面的挠曲响应主要受基层和膨胀性基层相对刚度的影响。相反,上梁和下梁的相对抗弯刚度对模型响应的影响相对较小。此外,下横梁的放置深度、上土层的单位重量和上横梁的自重等参数也会影响路面模型的响应。研究表明,在设计混凝土路面时,选择提高膨胀土基层的模量可能比加固路面地基更可取。
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Parametric Analysis for a Low-Volume Concrete Road with Reinforced Subgrade Subjected to Swelling Pressure
This paper presents the parametric analysis of a combined system of a low-volume concrete pavement, base layer and reinforced expansive soil, subjected to the stresses due to wheel loading and swelling of the soil. A soil-structure Interaction model is considered for the analysis, in which the pavement and the reinforcement are idealized as a finite beam, with plane-strain conditions, whereas a base layer and the expansive soil are modelled as Winkler Springs of different stiffnesses. During the analysis, it was taken into account that the geosynthetic reinforcement, which could be in the form of a geogrid, geocell, or a combination of both, possesses bending stiffness and is placed at the interface between the base layer and the expansive subgrade. The reinforcement layer is subjected to stresses due to wheel load, self-weight of pavement slab and surcharge load of the base layer at the top and the swelling pressure from the subgrade at its bottom. The governing differential equations for the flexural response of the model are derived and a closed-form solution is presented in a non-dimensional form. The outcomes of the parametric analysis highlight that the flexural response of the pavement is predominantly affected by the relative stiffness of the base layer and the expansive subgrade. In contrast, the relative flexural rigidity of the upper and lower beams has a comparatively minor impact on the model’s response. Additionally, parameters like the depth of placement of the lower beam, unit weight of the upper soil layer, and the self-weight of the upper beam also contribute to influencing the response of the pavement model. The study suggests that, while designing for the concrete pavement, opting for an increase in the modulus of subgrade of expansive soil may be a preferable choice over reinforcing the foundation of the pavement.
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自引率
9.10%
发文量
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审稿时长
12 weeks
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