Developing soft-computing regression model for predicting bearing capacity of eccentrically loaded footings on anisotropic clay

Kongtawan Sangjinda , Rungkhun Banyong , Saif Alzabeebee , Suraparb Keawsawasvong
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引用次数: 0

Abstract

In this investigation, the bearing capacity solution of a strip footing in anisotropic clay under inclined and eccentric load is analyzed using the numerical simulation model. The lower and upper bound finite element limit analysis (FELA) approaches are utilized to establish precise modeling and derive the numerical outcomes of a strip footing's bearing capacity. All analyses use effective automated adaptive meshes with three iteration stages to enhance the accuracy of the outcomes. The parametric analysis is performed to examine the influence of four dimensionless parameters which are taken into account in this study, namely the anisotropic strength ratio, the dimensionless eccentricity, the load inclination angle, and the adhesion factor to the bearing capacity factor. Furthermore, a new model has been proposed to predict the bearing capacity factor for the calculation of the undrained bearing capacity for footings resting on an anisotropic clay using an advanced data-driven method (MOGA-EPR). The new model takes into account the anisotropy, eccentricity, and inclination of the applied load and could be used with confidence in routine designs of shallow foundations in undrained conditions with the consideration of the anisotropic strengths of clays.

建立各向异性黏土偏心荷载基础承载力预测的软计算回归模型
本文采用数值模拟模型,分析了各向异性粘土条形基脚在倾斜和偏心荷载作用下的承载力解。利用有限元下限和上限分析(FELA)方法建立了条形基脚承载力的精确模型,并推导了其数值结果。所有分析都使用具有三个迭代阶段的有效自动自适应网格来提高结果的准确性。通过参数分析,考察了本研究中考虑的四个无量纲参数,即各向异性强度比、无量纲偏心率、荷载倾角和粘附因子对承载力因子的影响。此外,还提出了一个新的模型来预测承载力因子,用于使用先进的数据驱动方法(MOGA-EPR)计算各向异性粘土地基的不排水承载力。新模型考虑了所施加荷载的各向异性、偏心率和倾斜度,可在考虑粘土各向异性强度的不排水条件下用于浅基础的常规设计。
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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