Discrete Element Modeling of Dynamic Compaction with Different Tamping Condition

IF 1 Q4 ENGINEERING, CIVIL

Civil Engineering Infrastructures Journal-CEIJ Pub Date : 2020-06-01 DOI:10.22059/CEIJ.2020.282153.1587

A. Ghassemi, Seyed Sahand Shahebrahimi

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引用次数: 1

Abstract

Dynamic Compaction (DC) is a common deep compaction method that is usually used for densification of coarse-grained soils. Although traditional continuum-based models such as the Finite Element Method can be successfully applied for assessment of stress distributions or deformations induced by DC, they are typically not adequate for capturing the grain scale mechanisms of soil behavior under impact. In contrast, numerical models such as Discrete Element Method (DEM) in which the interaction of constituting distinct elements is explicitly simulated are promising for simulation of DC process. In this study, dynamic compaction in a dry rockfill was simulated through a two-dimensional DEM model. Based on the developed model, a series of analyses with various tamper weights and drop heights were conducted to investigate the effects of important factors such as energy and momentum per drop on DC results. Comparison of the obtained results with experimental observations reveal the capability of DEM for simulation of DC. The numerical simulations also confirm the positive effect of using conical-based tampers in DC process.

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不同夯实条件下强夯的离散元建模

动态压实(DC)是一种常用的深度压实方法，通常用于粗粒土的致密化。虽然传统的基于连续体的模型(如有限元法)可以成功地用于评估直流引起的应力分布或变形，但它们通常不足以捕捉冲击下土壤行为的颗粒尺度机制。相比之下，离散元法(DEM)等数值模型明确地模拟了构成不同元素的相互作用，有望用于直流过程的模拟。本文通过二维DEM模型对干堆石料的强夯进行了数值模拟。基于所建立的模型，进行了一系列的分析，研究了不同的捣固重量和跌落高度对直流结果的影响，研究了能量和每跌落动量等重要因素。将所得结果与实验观测结果进行比较，揭示了DEM模拟直流电流的能力。数值模拟结果也证实了在直流过程中使用锥形捣固器的积极效果。

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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来源期刊

Civil Engineering Infrastructures Journal-CEIJ ENGINEERING, CIVIL-

CiteScore

1.30

自引率

60.00%

发文量

审稿时长

47 weeks