Analysis of a landslide in sensitive clays using the material point method

IF 1.6 Q3 ENGINEERING, GEOLOGICAL
A. Troncone, L. Pugliese, Andrea Parise, E. Conte
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引用次数: 3

Abstract

Slope movements are generally classified in four different phases: pre-failure, failure, post-failure and eventual reactivation. In engineering applications, the pre-failure and failure phases are usually analysed using traditional numerical techniques, such as the finite element method and the finite difference method. However, these methods are often based on the assumption of small deformations, and consequently are unsuitable for analysing the slope behaviour during the post-failure stage, since this latter is usually characterised by very large deformations. To overcome this shortcoming, the material point method (MPM) is employed in the present study. Specifically, MPM is used to perform an analysis of a landslide in sensitive clays that occurred at Saint-Jude (Québec, Canada) in 2010. To assess the accuracy of the analysis, the final profile and the displacement magnitude detected after the event are compared to those obtained by the numerical simulation. The results provided by MPM are in satisfactory agreement with field observation. The failure mechanism and the development of the failure surface within the slope are also reproduced successfully. These results also show that MPM is an attractive method to predict the kinematics of landslides in sensitive clays, requiring also a limited number of conventional geotechnical parameters as input data.
用物质点法分析敏感粘土中的滑坡
边坡运动一般分为四个不同的阶段:破坏前、破坏后、破坏后和最终恢复。在工程应用中,通常使用传统的数值技术,如有限元法和有限差分法来分析失效前和失效阶段。然而,这些方法通常基于小变形的假设,因此不适合分析破坏后阶段的边坡行为,因为后者通常以非常大的变形为特征。为了克服这一缺点,本研究采用了物质点法(MPM)。具体来说,MPM用于对2010年发生在Saint-Jude (quacimbec, Canada)的敏感粘土中的滑坡进行分析。为了评估分析的准确性,将地震后检测到的最终剖面和位移幅度与数值模拟得到的结果进行了比较。数值模拟结果与现场观测结果吻合较好。成功地再现了边坡内部的破坏机理和破坏面发育过程。这些结果还表明,MPM是一种有吸引力的方法来预测敏感粘土中滑坡的运动学,也需要有限数量的常规岩土参数作为输入数据。
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来源期刊
Geotechnical Research
Geotechnical Research ENGINEERING, GEOLOGICAL-
CiteScore
4.50
自引率
26.30%
发文量
22
审稿时长
12 weeks
期刊介绍: Geotechnical Research covers the full scope of geotechnics and its related disciplines including: Soil, rock and fluid mechanics; geoenvironmental engineering; geothermal engineering; geotechnical design and construction issues; analytical and numerical methods; physical modelling; micromechanics; transportation geotechnics; engineering geology; environmental geotechnology; geochemistry; geohydrology and water management.
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