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翁效林, 张超, 马豪豪, 宋文佳. 拓宽道路差异沉降临界控制标准研究[J]. 岩土工程学报, 2013, 35(9): 1705-1711.
引用本文: 翁效林, 张超, 马豪豪, 宋文佳. 拓宽道路差异沉降临界控制标准研究[J]. 岩土工程学报, 2013, 35(9): 1705-1711.
WENG Xiao-lin, ZHANG Chao, MA Hao-hao, SONG Wen-jia. Control criteria for differential settlement of widened road[J]. Chinese Journal of Geotechnical Engineering, 2013, 35(9): 1705-1711.
Citation: WENG Xiao-lin, ZHANG Chao, MA Hao-hao, SONG Wen-jia. Control criteria for differential settlement of widened road[J]. Chinese Journal of Geotechnical Engineering, 2013, 35(9): 1705-1711.

拓宽道路差异沉降临界控制标准研究

Control criteria for differential settlement of widened road

  • 摘要: 为建立拓宽道路差异沉降临界控制标准,首先开展了路面结构层对地基差异沉降的应变响应模型试验研究,基于模型试验结果,以路面结构层层状体系为研究对象,以不协调变形作为结构层底部的约束条件,建立了路面结构层对层底不协调变形的力学响应有限元模型,研究了路面结构层的应力变化规律,并通过系统数值分析手段对路面结构层底不协调变形控制标准与地基差异沉降标准进行相关性分析。研究结果表明: 在地基差异沉降作用下,沥青混凝土面层整体呈现受拉状态,新老地基差异沉降值达到14 cm是地基临界差异沉降控制标准,路面结构层层底不协调变形的临界控制标准是1cm;地基差异沉降临界控制值Sc与新老路基拓宽比l及路面层反坡斜率λ之间的关系可以用Sc =1000λ(16.8 l2-30.4 l+17.1) 来近似表达。

     

    Abstract: The additional stress imposed on different pavement structures with differential settlement between the new and old foundations of a widened road is studied. By the use of a large-scale ground differential settlement simulator, full-size model tests are performed to study the strain response and the deformation behavior of pavement layers. The results show that under the effect of differential ground settlement, the asphalt cement wearing course is subjected to tensile stress. Plastic deformation will develop in both layers when the differential settlement reaches a value of 14 cm, which is recommended as the critical control standard for ground differential settlement. On the basis of the model test results, and with the differential settlement at the bottom of pavement as the constraint condition, a two-dimension finite element model is established for the uncoordinated deformation of the subgrade, which is used to study the stress variation of different pavement layers in response to differential settlements of varying magnitude. The results indicate that when the differential settlement at the bottom of pavement reaches 1 cm, the maximum additional stress in the surface of the base course will surpass the maximum splitting tensile strength for the cement-stabilized base materials specified in the current specifications. Therefore, 1cm is recommended as the critical control standard for the differential settlement at the bottom of pavement. In addition, an approximate formula is deduced to calculate the critical control standard of ground differential settlement (Sc) which is expressed as Sc=1000λ(16.8l2-30.4l+17.1), in which λ is the rate of the reverse slope of the pavement and lis the ratio of the width of the new road to that of the original one.

     

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