Three-dimensional investigation of the effect of nail’s angle on the soil-nailed wall

IF 0.1 4区 管理学 Q4 BUSINESS
Samanta Kolin
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Abstract

Nowadays, it is necessary to implement advanced development infrastructure, such as high buildings and subsequently excavation with the growth of population and urban development. In excavation operations, one of the most important parameters affecting overall soil stability and good performance is deformation of wall construction. Several soil reinforcement methods are used to reduce and control deformations and to provide stability against failure. In this regard, one of the most effective, cost-effective and most widely used methods is the implementation of soil-nailed walls. Predicting the degree of deformation and the optimal design of soil nails a major issue in the process of designing and analyzing soil-nailed systems which has been studied by many other researchers. The purpose of present study was to investigate the three-dimensional effect of nail angle. This angle change (deflection) which can be due to the underground disputes or construction problem has been investigated and its effects on soil-nailed wall deformations evaluated through three-dimensional Software of Plaxis 3D 1.6 Foundation. The obtained results showed that nail angle can lead to increase wall deformations. However, the deformation caused by nail angle changes is not significant up to the value of 30 degrees.
钉角对土钉墙影响的三维研究
如今,随着人口的增长和城市的发展,有必要实施先进的开发基础设施,如高层建筑和随后的挖掘。在开挖作业中,影响土体整体稳定性和良好性能的最重要参数之一是墙体变形。几种土壤加固方法用于减少和控制变形,并提供抗破坏的稳定性。在这方面,最有效、最具成本效益和最广泛使用的方法之一是实施土钉墙。土钉的变形程度预测和优化设计是土钉系统设计和分析过程中的一个重要问题,已为许多研究者所研究。本研究的目的是探讨钉角的三维效应。这种角度变化(挠度)可能是由于地下纠纷或施工问题,并通过Plaxis 3D 1.6地基三维软件对其对土钉墙变形的影响进行了研究。结果表明,钉角的增大会导致管壁变形增大。但在30度范围内,钉角变化引起的变形并不显著。
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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