逐渐增加主应力偏差的边坡稳定性有限元分析

IF 1.7 Q3 ENGINEERING, GEOLOGICAL

Geomechanics and Geoengineering-An International Journal Pub Date : 2021-08-10 DOI:10.1080/17486025.2021.1955157

Djillali Amar Bouzid

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引用次数: 0

摘要

摘要采用抗剪强度折减法（SRM）通过有限元分析来评估边坡稳定因子有几个优点，但也有很多缺点。作为一种替代方案，提出了一种新的有限元方法，称为应力偏量增加法（SDIM）。通过一个称为莫尔圆膨胀因子的因子，新方法通过逐步增加移动的主应力偏差来评估边坡稳定性，直到达到土壤破坏。数值程序基于严格的公式，因为它保留了与LEM一致的安全系数的定义，并保持了剪切应力在破坏时剪切强度发生的同一平面上的逐渐发展。所提出的方法通过使用实际强度参数来处理实际材料，而不是通过因子来减少这些参数。使用几个涉及和纯粘性土壤的边坡实例，对名为的计算机代码中编码的SDIM的结果与SRM和LEM的结果进行了全面评估。包括安全系数和塑性应变分布的比较结果表明了该方法的可靠性和强度。

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Finite element analysis of a slope stability by incrementally increasing the mobilised principal stress deviator

ABSTRACT The assessment of slope stability factor by a FE analysis using the shear strength reduction method (SRM) enjoys several advantages and owns many shortcomings. As an alternative, a new FE approach called stress deviator increasing method (SDIM) is proposed. By means of a factor termed Mohr’s circle expansion factor, the new approach assesses the slope stability by incrementally increasing the mobilised principal stress deviator until the soil failure is reached. The numerical procedure is based then on a rigorous formulation as it preserves the definition of the safety factor consistent with that of LEM and maintains the progressive development of the shear stress on same plane on which the shear strength will occur at failure. The proposed method deals with the actual material by using the real strength parameters and rather than those reduced by a factor. The results of SDIM encoded in a computer code called were thoroughly assessed against those of both SRM and LEM using several slope examples involving and purely cohesive soils. Results of comparison encompassing factor of safety along with plastic strain distributions showed the reliability and the strength of the present method.

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来源期刊

Geomechanics and Geoengineering-An International Journal ENGINEERING, GEOLOGICAL-

CiteScore

3.80

自引率

0.00%

发文量

期刊介绍： Geomechanics is concerned with the application of the principle of mechanics to earth-materials (namely geo-material). Geoengineering covers a wide range of engineering disciplines related to geo-materials, such as foundation engineering, slope engineering, tunnelling, rock engineering, engineering geology and geo-environmental engineering. Geomechanics and Geoengineering is a major publication channel for research in the areas of soil and rock mechanics, geotechnical and geological engineering, engineering geology, geo-environmental engineering and all geo-material related engineering and science disciplines. The Journal provides an international forum for the exchange of innovative ideas, especially between researchers in Asia and the rest of the world.