Bearing strength calculation of end-bearing piles under recognition of cohesive friction on the pile surface

V. Utkin
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引用次数: 1

Abstract

Introduction. It is a drawback of the existing end-bearing pile design method for soil base bearing capacity that the latter is not taken into account in the assessment of the foundation soil action above the rock or a low-compression soil layer in all cases in accordance with the Building Code 24.13330.2011. However, taking into account the bearing capacity of this layer of the soil base in the load accommodation by the end-bearing pile (under recognition of the pile weight) could increase its calculated bearing capacity by the respective value of the soil base bearing capacity in combination with the soil support action under the pile’s lower end. The objective of the research is improving the trustworthiness of the calculation result of the bearing strength of end-bearing piles in the soil base, identifying the pile’s bearing strength reserve by taking in account the additional soil base bearing capacity due to the cohesive friction on the side surface of the pile. Materials and methods. The object of the research are piles of any applicable materials. The methods of calculation of the end-bearing piles are based on on cohesive friction values and their distribution along the pile length in a limit state calculation model in terms of the soil base bearing capacity. Results. The paper presents the equation of the ultimate compression load of the end-bearing pile in terms of the foundation base soil bearing capacity and the formula for the base soil bearing capacity reserve factor of the pile. The calculation of the pile bearing strength in terms of the material strength is referenced in the bibliography. Conclusions. A calculation method of end-bearing piles bearing strength was developed based both on the bearing capacity of soil base under the pile lower end and the additional soil bearing capacity along the flanks of the pile. The method could be applied also for calculations of the bearing strength of deep slot-type foundations. A quantitative assessment of the end-bearing pile on the design stage of a building with a pile foundation is given, prerequisite is made for further studies of the action of end-bearing piles and development of design codes for various piles in terms of material, type of support action, methods of immersion in the soil, etc.
考虑桩面黏聚摩擦的端承桩承载力计算
介绍。现行端承桩设计土基承载力方法的一个缺点是,在所有情况下,根据建筑规范24.13330.2011对岩石或低压缩土层以上的地基土作用进行评估时,均未考虑端承桩设计土基承载力。而考虑端承桩调节荷载时(在确认桩重的情况下)这一层土基的承载力,可以通过土基承载力各自的值与桩下端土支撑作用相结合来增加其计算承载力。研究的目的是提高土基端承桩承载力计算结果的可信度,考虑桩侧表面黏聚摩擦产生的土基附加承载力,确定桩的承载力储备。材料和方法。研究对象是一堆一堆的材料。端承桩的计算方法是根据桩身承载力的极限状态计算模型中黏聚摩擦值及其沿桩长的分布。本文给出了端承桩极限压缩荷载用地基底土承载力表示的公式和桩底土承载力储备系数的计算公式。根据材料强度计算桩的承载强度见参考文献。提出了一种基于桩下土体基础承载力和桩侧附加土体承载力的端承桩承载力计算方法。该方法也可用于深槽型基础的承载力计算。本文对某桩基础建筑设计阶段的端承桩进行了定量评价,为进一步研究端承桩的作用,制定各种桩的材料、支撑作用类型、沉土方法等设计规范奠定了基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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