A Method for Fast Obtaining of Soil Shear Strength Index Based on Dem Free-Fall Cone Penetration Simulation

Jincheng Diao, Jingwei Gao, Xiaobo Song, Baojun Di
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Abstract

Soil shear strength is an important index of soil mechanical properties, which is of great significance in fields such as rock and soil stress analysis, agricultural machinery farming, seabed exploration, and vehicle trafficability evaluation. In order to improve the problems existing in the existing methods of obtaining soil shear strength index, such as low accuracy, demanding experimental site conditions and long periodicity, this paper constructed a model of free-fall cone penetration into the soil based on the discrete element method (DEM) simulation, and the corresponding relationship between moisture content and penetration depth was obtained. In addition, the corresponding relationship between the moisture content and the soil shear strength index was obtained from the triaxial compression test. Combining these two relational equations, this paper finally summarized the equation about the relationship between the penetration depth in the simulation and the soil shear strength index in the test. It was verified that the errors of internal friction angle (φ) and internal cohesion (c) obtained by the equation were only 3.45% and 6.68%. It shows that the DEM free-fall cone penetration simulation can replace the triaxial compression test to obtain soil shear strength index with very low error, and it is a quick and accurate new method to acquire the soil mechanical parameters.
基于Dem自由落体锥突模拟的土体抗剪强度指标快速获取方法
土体抗剪强度是表征土体力学特性的重要指标,在岩土应力分析、农业机械耕作、海底勘探、车辆通行性评价等领域具有重要意义。为了改善现有土抗剪强度指标获取方法存在精度低、试验场地条件要求高、周期长等问题,本文基于离散元法(DEM)模拟构建了自由落体圆锥体入土模型,得到了含水率与入土深度的对应关系。此外,通过三轴压缩试验,得到了含水率与土体抗剪强度指标的对应关系。结合这两个关系方程,本文最终总结出模拟中侵彻深度与试验中土体抗剪强度指标的关系方程。验证了由方程得到的内摩擦角(φ)和内黏聚力(c)误差仅为3.45%和6.68%。结果表明,DEM自由落体锥突模拟可以代替三轴压缩试验获得土体抗剪强度指标,且误差很小,是一种快速准确获取土体力学参数的新方法。
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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