A Robust and Efficient Method of Designing Piles for Landslide Stabilization

IF 1 4区 工程技术 Q4 ENGINEERING, ENVIRONMENTAL
Yang Yu, Xingmin Li, Xiaohua Pan, Q. Lü
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引用次数: 6

Abstract

Stabilizing pile is a widely used method to reduce the development of large-scale landslides. Optimizing the pile geometry is a great challenge in the design of stabilizing piles with the purpose of cost-effectiveness, especially for soil strength parameters with large uncertainty. The objective of this study is to propose a robust and efficient method of designing piles for landslide stabilization with the consideration of the safety of slope, uncertainty of soil parameters, and cost of stabilizing piles. A new response surface, which incorporates soil parameters and stabilizing force into a quadratic polynomial function, is first proposed. Unknown coefficients of the quadratic polynomial function are solved with a numerical method at typical sampling points. Based on the solved quadratic polynomial function, the mean and standard deviation of factor of safety (FOS) of the pile-stabilized slope as well as the signal-to-noise factor are then calculated in order to evaluate the design robustness. A framework based on the concept of robust geotechnical design is presented, and its feasibility is illustrated by two cases of soil slopes. The results indicate that the proposed robust geotechnical design method could be used to optimize the design of landslide-stabilizing piles.
一种稳健有效的滑坡稳定桩设计方法
稳定桩是减少大型滑坡发展的一种广泛应用的方法。在以经济效益为目的的稳定桩设计中,特别是在土强度参数具有较大不确定性的情况下,优化桩的几何形状是一个很大的挑战。本研究的目的是在考虑边坡安全性、土体参数不确定性和稳定桩成本的情况下,提出一种稳健、高效的滑坡稳定桩设计方法。提出了一种将土体参数和稳定力纳入二次多项式函数的响应曲面。在典型采样点处,用数值方法求解了二次多项式函数的未知系数。根据求出的二次多项式函数,计算桩稳边坡的安全系数均值、标准差和信噪比,以评价设计的鲁棒性。提出了一种基于鲁棒岩土设计概念的框架,并通过两个土坡实例说明了其可行性。结果表明,所提出的鲁棒性岩土设计方法可用于滑坡稳定桩的优化设计。
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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来源期刊
Environmental & Engineering Geoscience
Environmental & Engineering Geoscience 地学-地球科学综合
CiteScore
2.10
自引率
0.00%
发文量
25
审稿时长
>12 weeks
期刊介绍: The Environmental & Engineering Geoscience Journal publishes peer-reviewed manuscripts that address issues relating to the interaction of people with hydrologic and geologic systems. Theoretical and applied contributions are appropriate, and the primary criteria for acceptance are scientific and technical merit.
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