Uplift Capacity of Single And Group of Granular Anchor Pile System

Journal of Civil Engineering, Science and Technology Pub Date : 2018-04-30 DOI:10.33736/JCEST.879.2018

Pradeep Kumar, Mohit Kumar, Vinay Kumar Chandaluri, V. Sawant

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引用次数: 6

Abstract

In view of increased development in the infrastructure across the world, now it becomes necessary to go for the marginal sites having weak soil for foundation. Foundations are normally designed to transfer compressive and uplift forces safely to the subsoil, wherein piles provide an appropriate solution. But the option of pile foundation is quite expensive. Before going for pile foundation, the feasibility of other alternatives must be accessed thoroughly. If it is possible to adopt some suitable ground improvement technique for enhancement of foundation strength, then it should be considered. In the present study, Granular Anchor Pile System is proposed to with stand uplift forces. The present paper, based on a field study, briefly discusses the basic principles associated with the granular pile. The analysis of field test data indicates that the proposed granular pile system is a viable means for ground improvement. It is found effective for improving varying soil conditions and capable of providing resistance to compressive forces in addition to the uplift resistance. Besides, this foundation technique has been found cost effective as compared to the concrete piles.

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单粒和群粒锚固桩体系的抗拔能力

鉴于世界范围内基础设施的不断发展，现在有必要选择土壤薄弱的边缘场地作为基础。基础通常被设计为将压缩和拔拔力安全地传递给底土，其中桩提供了适当的解决方案。但桩基础的选择是相当昂贵的。在采用桩基础之前，必须全面考察其他方案的可行性。如果有可能采用合适的地基改善技术来提高地基强度，则应予以考虑。在本研究中，提出了具有直立拔力的颗粒锚桩体系。本文在实地考察的基础上，简要论述了颗粒桩的基本原理。现场试验数据分析表明，所提出的颗粒桩体系是一种可行的地基改良手段。它被发现有效地改善不同的土壤条件，并能够提供抗压缩力，除了隆起阻力。此外，与混凝土桩相比，这种基础技术具有成本效益。

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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Journal of Civil Engineering, Science and Technology

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