多层土中承台桩在轴压和拉拔荷载作用下的有效性研究

Abeer Ahmed Ibrahim, M. Karkush
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引用次数: 0

摘要

多桩是端部扩大的桩;这些桩在桩的下三分之一处有一个或多个钟。这种桩适用于粘土软化、地下水位变化、膨胀土、黑棉土、松散砂土等土体。本文对多层土中承台桩在轴压和拉拔荷载作用下的受力特性进行了研究。本文综述了多层土中承台桩的试验和理论研究工作。这些桩在压缩和拉拔情况下承受静、动荷载。大多数理论结果集中在PLAXIS 3D等软件上。施加在桩上的轴向荷载来自于这些桩之上的上部结构,负表皮摩擦来自于地下水。以往的研究结果表明,在不同类型的土体和多层土体中使用这种桩是有效的。根据以往的研究,本研究的目的是找出有关承压桩的所有情况,包括承压桩的最佳形状为半锥状态,以及承压桩的最差状态为全锥状态。承铃桩的最佳桩数为两个承铃桩,因为承铃桩的桩数越多,桩的承载力越高,但不超过两个承铃桩,因为承铃桩的工作量大,造价高。钟的最佳位置是在桩的底部。目前的研究表明,与普通桩相比,承载力从40%提高到73.75%。
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The Efficiency of Belled Piles in Multi-Layers Soils Subjected to Axial Compression and Pullout Loads: Review
Multi-belled piles are piles with enlarged ends; these piles have one or further bells at the lower third part of the pile. These piles are suitable for many soils with problems such as softening clay, the variation of groundwater table, expansive soils, black cotton soil, and loose sand. The current study reviewed the behavior of belled piles in multi-layer soils subjected to axial compression and pullout loading. The review covered the experimental and theoretical works on belled piles in multi-layered soils. These piles were subjected to static and dynamic loadings in compression and pullout cases. Most theoretical results focused on software such as PLAXIS 3D. The axial load applied on the piles comes from the upper structure built above these piles, and negative skin friction comes from groundwater. The results obtained from previous studies showed the validity of using such piles in different types of soil and multilayer soils. According to previous studies, this study aims to find all the things about the belled piles, including the best shape of the belled pile being the half cone and the worst state being when the bell is fully cone. The best number of belled piles is two bells because the bearing capacity increases when the number of bells increases but does not exceed two due to hard work and high cost. The best location of a bell is at the base of the pile. The current study showed that the bearing capacity increased from 40% to 73.75% compared with ordinary piles.
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