THE DIFFERENCE IN THE OPERATION OF DRILLED AND DRIVEN PILES IN THE COMPOSITION OF A TAPE PILE FOUNDATION

Natalia V. Blashchuk, I. Majewskа, Oleksandr YU. Shmundyak, Mykhailo V. Perebyinis
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Abstract

A comparative analysis of the results of the mathematical modeling of the strip pile foundation from driven and bored piles with one-row and two-row arrangement of piles with different longitudinal steps and different lengths in different types of soil was performed. It was established that the degree of implementation of the load-bearing capacity of piles and grids as part of a strip pile foundation depends not only on the relative length and pitch of the piles, but also on the method of their arrangement. Taking into account the actual operation of piles and grids as part of the pile foundation allows to increase the load-bearing capacity of the pile foundation as a whole and, accordingly, to save material and labor resources during construction work. Based on the results of the study, the difference in the operation of drilled and driven piles in the strip pile foundation was established. The load-bearing capacity of a low grid as part of a strip pile foundation on bored piles is 1.5-2 times greater than in pile foundations made of driven piles. The degree of implementation of the load-bearing capacity of the pile as part of the pile foundation is significantly greater for foundations made of drilled piles compared to foundations made of driven piles. For foundations made of driven piles, at step 3d - 6d, the piles in the strip do not fully realize their load-bearing capacity. Drill pile groups increase their load-bearing capacity by working in a group, even with a minimum pitch. Since pile foundations from drilled piles significantly increase their bearing capacity due to the joint work of their elements under load in comparison with pile foundations from driven piles, taking into account this joint work, pile foundations from drilled piles become competitive with similar foundations from driven piles.
钻孔灌注桩和打入桩在胶带桩地基组成中的运作差异
在不同类型的土壤中,对打入桩和钻孔桩的条形桩地基数学模型结果进行了比较分析,条形桩采用单排和双排布置,桩的纵向间距和长度各不相同。 结果表明,作为条形桩基础一部分的桩和格栅的承载力实施程度不仅取决于桩的相对长度和间距,还取决于其布置方法。考虑到作为桩基础一部分的桩和格栅的实际操作,可以提高整个桩基础的承载能力,从而在施工过程中节省材料和劳动力资源。 根据研究结果,确定了条形桩基础中钻孔灌注桩和打入桩的操作差异。作为钻孔灌注桩条形桩基础的一部分,低格栅的承载力是打入桩桩基的 1.5-2 倍。钻孔灌注桩地基与打入桩地基相比,作为桩基一部分的桩的承载力的实现程度要大得多。对于打入桩地基,在第 3d - 6d 步,带状桩不能完全实现其承载能力。钻孔灌注桩通过成组作业,即使最小间距也能提高承载能力。 由于钻孔灌注桩的桩基与打入桩的桩基相比,在荷载作用下,钻孔灌注桩的各部分共同作用,从而大大提高了桩基的承载能力,因此,考虑到这种共同作用,钻孔灌注桩的桩基与打入桩的桩基相比,具有更强的竞争力。
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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