硬化临界状态模型中使用的剪切强度降低系数

Isabella Souza, Daniela Rojas, Ana Pires, M. Farias, M. C. Cordão Neto
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引用次数: 0

摘要

斜坡稳定性分析对于预测环境、财务和人类生命的影响非常重要。极限平衡法(LEM)通常用于估算斜坡的安全系数(SF)。然而,有限元法(FEM)越来越多地应用于斜坡稳定性分析,并采用了不同的方法,其中剪切强度降低(SSR)技术常用于完全塑性弹性模型。本研究的目的是对这两种方法进行讨论,使用有或无硬化的临界状态模型来模拟土体的应力应变行为。在案例研究中,使用 LEM 和 FEM(考虑了硬化和未硬化的临界状态模型)得出的结果是一致的,可以验证斜坡的稳定性条件。此外,与使用完全塑性弹性模型得出的结果相比,折减系数较小。
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Shear strength reduction factor used in critical state models with hardening
The slope stability analyses are important to predict environmental, financial, and human life impacts. The Limit Equilibrium Method (LEM) is commonly used to estimate a slope’s Safety Factor (SF). However, the Finite Element Method (FEM) is increasingly applied to slope stability analyses, using different approaches, among which the technique of Shear Strength Reduction (SSR) is commonly used in perfectly plastic elastic models. The objective of this study is to present a discussion about these two methodologies, using critical state models with or without hardening will be used to model the stress-strain behavior of the soil mass. The results obtained in the case study presented, using LEM and FEM considering critical state models with and without hardening are consistent and allowed verifying the stability condition of the slope. Also, the reduction factors are smaller when compared to the results using perfectly plastic elastic models.
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