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主办单位:煤炭科学研究总院有限公司、中国煤炭学会学术期刊工作委员会
采动区钢筋混凝土灌注桩受力特性分析及抗变形技术
  • Title

    Analysis of mechanical characteristics and anti-deformation design of reinforced concrete cast-in-place pile in mining process

  • 作者

    田迎斌李学良

  • Author

    TIAN Yingbin LI Xueliang

  • 单位

    中煤科工集团唐山研究院有限公司矿山测量研究所,天地(唐山)矿业科技有限公司,中煤科工生态环境科技有限公司,煤炭科学研究总院

  • Organization
    Istitute of Mine Survey,China Coal Technology Engineering Group Tangshan Research Institute Co.,Ltd. Tiandi
    (Tangshan) Mining Science and Technology Co.,Ltd. China Coal Science and Technology Ecological Environment
    Technology Co,Ltd. China Coal Research Institute
  • 摘要

    在我国矿业城市采煤塌陷区搞建筑开发越来越普遍,随着建筑层数和荷载的增加,建筑物采用的基础型式也由浅基础逐渐过渡到深基础,钢筋混凝土钻孔灌注桩也为深基础的一种形式,为解决采动区内建筑物钢筋混凝土钻孔灌注桩在地基土体水平变形作用下的配筋设计问题,分析了在常规水平荷载和地基土体水平变形作用下桩身的受力、变形和工作特性,推导了柔性桩在水平力作用下的挠曲微分方程,并将地基土体位移代入挠曲微分方程求解位移,将地基土体位移转化为等效的桩顶水平集中力,然后将其与常规水平力相叠加作为在受采动影响下的桩顶的荷载作用效应。在确定桩顶水平力作用效应时,承台底部的总水平力和弯矩按照平均分配的方式将水平力传递到基桩顶部,以求得的桩身最大弯矩按受弯构件进行桩身受弯承载力计算,以桩身最大剪力按受剪构件进行桩身受剪承载力计算。计算结果分析表明:基桩的纵筋直径由16mm增加到18mm,配筋量增加约26%,箍筋直径由8mm增加到10mm,配筋量增加约56%,可增加纵筋和箍筋的配筋量,以提高基桩抗变形能力;同时,在承台底部设置滑动层可以有效减少地基土体传递给承台及上部结构的摩擦力,减少了承台及上部结构的附加应力,从而间接提高了建筑物的整体抗变形能力。



  • Abstract
    The use of mining subsidence land for construction land development has been widely used in the planning and development of mining cities in China. With the increase of building layers and loads,the foundation type of buildings has gradually changed from shallow foundation to deep foundation. Reinforced concrete bored pile is a form of deep foundation. The theory and practice of anti deformation design of shallow foundation in mining area are relatively mature, but the research 0 n anti deformation design of deep foundation is relatively insufficient. In order to solve the reinforcement design problem of the reinforced concrete bored pile in the min ing area under the horizontal deformation of the foundation soil,the stress ,deformation and working characteristics of the pile body under the normal horizontal load and the horizontal deformation of the foundation soil are analyzed,and the deflection differential equation of the flexible pile under the horizontal force is derived. By substitu ting the displacement value of the foundation soil into the displacement solution of the deflection differential equation,the displacement of the foundation soil is transfor med into the equivalent horizontal concentrated force of the pile top,and then it is superposed with the conventional horizontal force as the load effect of the pile top un der the influence of mining. When determining the effect of the horizontal force on the pile top,the total horizontal force and bending moment at the bottom of the pile ca p transfer the horizontal force to the top of the pile according to the way of average distribution. The maximum bending moment of the pile body is calculated according to the flexural member,and the maximum shear force of the pile body is calculated according to the shear member. The analysis of the calculation results of the reinforc ement of the foundation pile under the horizontal deformation value of the foundation soil given by the calculation example shows that the diameter of the longitudinal re inforcement of the foundation pile increases from 16 mm to 18 mm,the reinforcement amount increases by about 26%,the diameter of the stirrup increases from 8 mm t 010 mm,and the reinforcement amount increases by about 56%. By increasing the amount of longitudinal reinforcement and stirrup reinforcement,the anti deformation ability of pile can be improved. At the same time,the sliding layer at the bottom of the bearing platform can effectively reduce the friction transmitted by the foundation s oil to the bearing platform and the upper structure,reduce the additional stress of the bearing platform and the upper structure, and indirectly improve the overall deform ation resistance of the building. t o deformation resistance of the building.
  • 关键词

    ​采动区灌注桩微分方程水平变形抗变形

  • KeyWords

    mining area; cast-in-place pile; differential equation; horizontal deformation; deformation resistance;

  • 相关专题
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    • 微段受力分析

    图(3) / 表(0)

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主办单位:煤炭科学研究总院有限公司 中国煤炭学会学术期刊工作委员会

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