Studying the Behavior of Expansive Soil Reinforced by Micropiles

A. S. Al-Gharbawi, Ahmed M. Najemalden, Mohammed Y. Fattah
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Abstract

Expansive soil is a form of soil that can expand and contract, changing its volume. Montmorillonite, a mineral with the ability to dissolve in water, makes up the majority of these kinds of soils, and by increasing the volume of the soil, it causes the soil to heave. Expansive soils could be a substantial concern for engineered buildings due to their capacity to adjust to seasonal variations by contracting or expanding moisture content. Many researchers focused on soils that were swollen and looked at how they behaved as well as how they could be improved. In this study, the work depends on inserting micro-piles with different depths and configuration widths to investigate which depth and configuration can be obtained to improve the bearing capacity of foundations on expansive soil. The main purpose of this study is to reinforce the expansive soil with micro-piles with different depths (1B, 2B, and 3B) and different configuration widths (under footing only, 1B and 2B). It was concluded that the soil reinforced with micro-piles improved the load-bearing capacity of the expensive soil and decreased the swell pressure. The increasing depth of the micropiles 2B to 3B (B is the width/diameter of the foundation) can increase the bearing capacity by just 6%; therefore, increasing the depth beyond 2B is not beneficial. Also, the increase in width of the configuration of the micro piles from 1B to 2B increases the bearing capacity by just 4%; therefore, the increase in width greater than 1B is not valid. Doi: 10.28991/CEJ-2024-010-01-017 Full Text: PDF
研究用微桩加固的膨胀土的行为
膨胀土是一种可以膨胀和收缩、改变体积的土壤。蒙脱石是一种能溶于水的矿物质,它是这类土壤的主要成分,通过增加土壤的体积,它能使土壤起伏。由于膨胀性土壤能够通过收缩或膨胀含水量来适应季节变化,因此对于工程建筑而言,膨胀性土壤可能是一个重大问题。许多研究人员将重点放在膨胀土上,研究它们的表现以及如何加以改进。在本研究中,工作取决于插入不同深度和配置宽度的微型桩,以研究哪种深度和配置可以提高膨胀土地基的承载能力。本研究的主要目的是使用不同深度(1B、2B 和 3B)和不同配置宽度(仅地基下、1B 和 2B)的微型桩加固膨胀性土壤。结果表明,用微型桩加固的土壤提高了昂贵土壤的承载能力,降低了膨胀压力。增加微桩深度 2B 至 3B(B 为地基宽度/直径)仅能提高 6% 的承载能力;因此,增加深度超过 2B 并无益处。另外,将微型桩的配置宽度从 1B 增加到 2B,也只能提高 4% 的承载力;因此,将宽度增加到 1B 以上是无效的。Doi: 10.28991/CEJ-2024-010-017 全文:PDF
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