Experimental and numerical study of the bulb's location effect on the behavior of under-reamed pile in expansive soil

IF 1.7 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY Journal of the Mechanical Behavior of Materials Pub Date : 2022-01-01 DOI:10.1515/jmbm-2022-0010

H. M. Ziyara, B. Albusoda

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引用次数: 3

Abstract

Abstract In this experimental and numerical analysis, three varieties of under-reamed piles comprising one bulb were used. The location of the bulb changes from pile to pile, as it is found at the bottom, center, and top of the pile, respectively. PLAXES 3D was used to conduct the research. In expansive soil, the under-reamed piles were 350 mm long, with the pile tip in dense sandy soil. The experiment was carried out in both saturated and unsaturated circumstances. The influence of the bulb location on the pile's bearing capacity for vertical and lateral loads, as well as the amount of swelling pressure and upward movement owing to swelling, was investigated. The results showed that in the unsaturated state, the bulb at the top of the pile gives bearing that is higher than the bulb at the bottom of the pile and near to the bulb in the center. In the case of unsaturated soil, the closer the bulb is to the top, the larger the bearing capacity, whereas in the event of swelling, the bearing capacity is highest when the bulb is in the middle of the pile. The same is true of the pile's upward movement, which is greater when the bulb is at the top than when it is at the bottom.

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膨胀土中扩底桩扩底位置效应的试验与数值研究

摘要在本试验和数值分析中，使用了三种由一个球头组成的扩孔桩。灯泡的位置因桩而异，因为它分别位于桩的底部、中心和顶部。PLAXES 3D被用于进行研究。在膨胀土中，扩孔桩长350mm，桩端位于密实砂土中。实验是在饱和和非饱和两种情况下进行的。研究了球头位置对桩在竖向和横向荷载下的承载力以及膨胀压力和膨胀引起的向上运动量的影响。结果表明，在非饱和状态下，桩顶的球头承载力高于桩底的球头，且接近中心的球头。在非饱和土的情况下，灯泡离顶部越近，承载力越大，而在膨胀的情况中，当灯泡位于桩的中间时，承载力最高。桩的向上运动也是如此，当灯泡位于顶部时，向上运动比位于底部时更大。

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来源期刊

Journal of the Mechanical Behavior of Materials Materials Science-Materials Science (miscellaneous)

CiteScore

3.00

自引率

11.10%

发文量

审稿时长

30 weeks

期刊介绍： The journal focuses on the micromechanics and nanomechanics of materials, the relationship between structure and mechanical properties, material instabilities and fracture, as well as size effects and length/time scale transitions. Articles on cutting edge theory, simulations and experiments – used as tools for revealing novel material properties and designing new devices for structural, thermo-chemo-mechanical, and opto-electro-mechanical applications – are encouraged. Synthesis/processing and related traditional mechanics/materials science themes are not within the scope of JMBM. The Editorial Board also organizes topical issues on emerging areas by invitation. Topics Metals and Alloys Ceramics and Glasses Soils and Geomaterials Concrete and Cementitious Materials Polymers and Composites Wood and Paper Elastomers and Biomaterials Liquid Crystals and Suspensions Electromagnetic and Optoelectronic Materials High-energy Density Storage Materials Monument Restoration and Cultural Heritage Preservation Materials Nanomaterials Complex and Emerging Materials.