Determination of Creep-Induced Displacement of Soil Slopes Based on LEM

M. Hajiazizi, Z. Mirzazadeh
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引用次数: 0

Abstract

The creep of earth slopes is an important challenge of the long-term stability of slopes. This paper develops a limit equilibrium method (LEM)-based analytical approach for calculating the shear displacement of creep-induced failure surface in 2D state for all slices where both force and moment equilibrium equations are simultaneously satisfied as a new research. The relation between shear displacement and creep time is obtained with regard to visco-elastoplastic creep model. The overall safety factor is first calculated for the slip surface using Spencer method. Then, the shear displacements of all slices are obtained based on vertical displacement of crown and using displacement compatibility relation exists between slices. By combining force and moment equilibrium equations and assuming a zero resultant for inter-slice forces, the vertical displacement at crown is determined using visco-elastopastic creep model. A numerical model was developed to calculate slope displacement by the proposed method. Force and moment equilibrium equations are simultaneously satisfied by iteration technique. The proposed method is verified through two numerical examples comparing the new approach and conventional finite element method.
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基于LEM的土质边坡蠕变位移测定
土质边坡的蠕变是边坡长期稳定性的一个重要挑战。本文提出了一种基于极限平衡法(LEM)的分析方法,用于计算所有切片在二维状态下蠕变引起的破坏面的剪切位移,其中力和力矩平衡方程同时满足,这是一项新的研究。针对粘弹塑性蠕变模型,得到了剪切位移与蠕变时间的关系。首先使用Spencer方法计算滑动面的总体安全系数。然后,基于牙冠的垂直位移,利用各切片之间存在的位移相容关系,得到各切片的剪切位移。通过结合力和力矩平衡方程,并假设层间力的合力为零,使用粘弹塑性蠕变模型确定了冠部的垂直位移。利用该方法建立了边坡位移的数值模型。用迭代技术同时满足力和力矩的平衡方程。通过两个数值算例对该方法进行了验证,并与传统的有限元方法进行了比较。
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来源期刊
CiteScore
1.30
自引率
60.00%
发文量
0
审稿时长
47 weeks
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