Back-analyses of soft soil failure with "strain-softening" behavior by the "equivalent sensitivity" concept

Lennon Silva, Marcus Pacheco
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Abstract

Stability analyses of slopes in soft soils are usually affected by strain-softening, resulting in unrealistic (unconservative) safety factors. The loss of post peak strength cannot be accounted for by classic limit equilibrium analyses. In practice, however, the overall loss of soil strength is generally approximated by Bjerrum correction factor μ ≤ 1, which is believed to account for the different failure velocities during the field tests (usually vane tests) and the actual failure in the field, in addition to anisotropy (Schnaid & Odebrecht, 2012). The objective of this work is to demonstrate that strain-softening reduces the overall safety factor to a value nearly equivalent to the application of Bjerrum’s correction factor. To accomplish this, a simple constitutive model (Mohr-Coulomb with residual stress) is used for total stress finite element analyses by means of the concept of “equivalent sensitivity” proposed by Pereira Pinto (2017). The results showed that equivalent sensitivity can be a great instrument to simulate the strain-softening behavior of soft soils.
利用 "等效灵敏度 "概念对具有 "应变软化 "行为的软土破坏进行反向分析
软土斜坡的稳定性分析通常会受到应变软化的影响,从而产生不切实际的(非保守的)安全系数。传统的极限平衡分析无法考虑峰后强度的损失。然而,在实践中,土壤强度的总体损失通常用比尤鲁姆修正系数 μ ≤ 1 来近似表示,这被认为是为了考虑现场试验(通常是叶片试验)和现场实际破坏过程中不同的破坏速度,以及各向异性(Schnaid & Odebrecht,2012 年)。这项工作的目的是证明应变软化会将整体安全系数降低到几乎等同于应用 Bjerrum 修正系数的值。为实现这一目标,通过 Pereira Pinto(2017 年)提出的 "等效灵敏度 "概念,将一个简单的构成模型(具有残余应力的莫尔-库仑模型)用于总应力有限元分析。结果表明,等效灵敏度是模拟软土应变软化行为的重要工具。
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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