Probabilistic analysis of strip footings resting on soil with uncertain properties

Q2 Engineering

HBRC Journal Pub Date : 2020-01-01 DOI:10.1080/16874048.2020.1838739

A. Ashraf, M. Bakry, Kamal Ismail

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Abstract

ABSTRACT The safety level of geotechnical problems has long been taken into account via a global safety factor (Fs). The role of this factor is to globally overcome the risks related to possible errors that may arise during field or laboratory tests. Indeed, there is no scientific basis for suggesting the value of Fs. For most geotechnical problems, it is suggested to take a safety factor of 3. This suggestion is arbitrary and does not take into account the circumstances of the problem under consideration. In the present paper, a more efficient approach to evaluate the safety level of geotechnical problems is employed. This is the probabilistic approach. This approach allows taking into consideration the uncertainty of soil properties arises from possible sources of errors. In the probabilistic approach, the safety level of geotechnical problems is expressed by means of the probability of failure (Pf). Several probabilistic methods to compute the Pf value can be found in literature. In the present paper, a robust and accurate method called Monte Carlo Simulation (MCS) is employed to present a probabilistic analysis of a strip footing resting on a clayey sand soil with uncertain soil properties.

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不确定地基上条形基础的概率分析

岩土工程问题的安全水平长期以来一直是通过全局安全系数(Fs)来考虑的。这一因素的作用是在全球范围内克服与现场或实验室测试期间可能出现的错误有关的风险。事实上，没有科学依据来推测f的值。对于大多数岩土工程问题，建议取安全系数为3。这个建议是武断的，没有考虑到正在审议的问题的情况。本文采用一种更有效的方法来评价岩土工程问题的安全水平。这是概率方法。这种方法可以考虑到土壤性质的不确定性，这些不确定性是由可能的误差来源引起的。在概率法中，岩土工程问题的安全等级用破坏概率(Pf)来表示。在文献中可以找到几种计算Pf值的概率方法。本文采用蒙特卡罗模拟(Monte Carlo Simulation, MCS)这一鲁棒且精确的方法，对具有不确定土性的粘砂土上的条形基础进行了概率分析。

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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