施工方案对侧底式碎石夯实钢筋混凝土整体锥桩刚度特性的影响

E. Kuzhakhmetova
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引用次数: 1

摘要

关联本文讨论了一种新型桩结构的设计方案,该结构是一个整体式钢筋混凝土锥形桩,封闭在碎石外壳中,并放置在球形碎石加宽上。在有限元数值研究过程中,揭示了桩基碎石层的几何参数,如碎石壳的壁厚和碎石加宽的半径,对其承载力的影响。本研究的目的是对作为土体一部分的桩结构在不同设计方案下的应力应变状态进行比较数值分析。材料和方法。利用CAE类软件包中的空间有限元模型,对土体中整体式钢筋混凝土桩基结构进行了数值静力分析。本文给出了不同碎石壳壁厚和不同下球形碎石加宽直径的钢筋混凝土圆锥桩的应力-应变状态的数值分析结果。分析表明,桩基特定几何参数的变化对其在外力作用下的承载力有显著影响。这些参数的合理选择使您能够经济地使用用于制造整体钢筋混凝土夯实桩的混凝土混合物和钢筋,这反过来又降低了桩基和整个建筑制造的财务成本。下一步的研究应该将数值结果与实验室和现场条件下获得的实验数据进行比较分析。
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Influence of constructive solutions on the stiffness characteristics of the rammed monolithic reinforced concrete cone-shaped piles with side and bottom forms from crushed stones
Relevance. The article discusses the design solutions of a new pile structure, which is a monolithic reinforced concrete cone-shaped pile, enclosed in a crushed stone shell and resting on a spherical crushed stone broadening. In the course of a numerical study, carried out using the finite element method, the influence of the geometric parameters of the crushed stone formations of the pile foundation, such as the wall thickness of the crushed stone shell and the radius of the crushed stone broadening, on its bearing capacity was revealed. The aim of the study is to perform a comparative numerical analysis of the stressstrain state of a pile structure with different design solutions, operating as part of a soil massif. Materials and methods. Numerical static analysis of the structure of a monolithic reinforced concrete pile foundation operating in a soil massif was carried out using a spatial finite element model in the CAE-class software package. The article presents the results of a numerical analysis of the stress-strain state of a rammed monolithic reinforced concrete cone-shaped pile with different wall thicknesses of the crushed stone shell and different diameters of the lower spherical crushed stone broadening. The analysis showed that changes in the specified geometric parameters of the pile foundation have a significant impact on its bearing capacity under external forces. The rational choice of these parameters allows you to economically use the concrete mixture and reinforcing rods intended for the manufacture of monolithic reinforced concrete rammed piles, which, in turn, leads to a decrease in financial costs for the manufacture of the pile foundation and the entire building as a whole. The next research is supposed to carry out a comparative analysis of the numerical results with experimental data obtained in laboratory and field conditions.
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