Effect Geometric Detail on the Outcome of DEM Simulations with Polyhedral Particles

IF 1.7 Q3 ENGINEERING, GEOLOGICAL

Geomechanics and Geoengineering-An International Journal Pub Date : 2022-04-21 DOI:10.1080/17486025.2022.2065037

S. Zhang, A. Zsaki

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引用次数: 1

Abstract

ABSTRACT The discrete element method is often used in modelling of a variety of problems in granular materials. The shape and asperities of a particle affects the simulation outcome due to differences in collision behaviour. The differences can be significantly different for polyhedral particles. In this research, 3D scanning of rock fragments at various levels of geometric detail was used to determine the influence asperities and geometric detail. These particles were used in simulating the impact with a solid block and metrics were collected, including the time of initial contact, duration of contact and time of maximum force along with the magnitude of forces and impulse. The computational effort required was measured as well. It was found that the changes in geometry result in alteration of a particle’s extent, volume and surface area, leading to differences in the initial contact time and duration. The decreasing geometric detail yields differences up to 30% on average for a single collision alone. The particle resolution shows a lesser influence on the magnitude of the contact force and impulse. It can be concluded that about a few hundred elements are sufficient in representing a particle when considering the computational costs.

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几何细节对多面体粒子DEM模拟结果的影响

离散元法常用于颗粒材料中各种问题的建模。粒子的形状和凹凸度由于碰撞行为的不同而影响模拟结果。对于多面体粒子，这种差异可能会有很大的不同。在本研究中，采用不同几何细节水平的岩石碎片三维扫描来确定影响颗粒和几何细节。将这些颗粒用于模拟与固体块的碰撞，并收集了指标，包括初始接触时间、接触持续时间和最大力时间以及力和冲量的大小。还测量了所需的计算量。研究发现，几何形状的改变会导致颗粒的大小、体积和表面积的改变，从而导致初始接触时间和持续时间的差异。随着几何细节的减少，单次碰撞产生的差异平均可达30%。颗粒分辨率对接触力和冲量的影响较小。可以得出结论，考虑到计算成本，大约几百个元素足以表示一个粒子。

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

Geomechanics and Geoengineering-An International Journal ENGINEERING, GEOLOGICAL-

CiteScore

3.80

自引率

0.00%

发文量

期刊介绍： Geomechanics is concerned with the application of the principle of mechanics to earth-materials (namely geo-material). Geoengineering covers a wide range of engineering disciplines related to geo-materials, such as foundation engineering, slope engineering, tunnelling, rock engineering, engineering geology and geo-environmental engineering. Geomechanics and Geoengineering is a major publication channel for research in the areas of soil and rock mechanics, geotechnical and geological engineering, engineering geology, geo-environmental engineering and all geo-material related engineering and science disciplines. The Journal provides an international forum for the exchange of innovative ideas, especially between researchers in Asia and the rest of the world.