From Flow to Jamming: Lattice Gas Automaton Simulations in Granular Materials

arXiv - PHYS - Cellular Automata and Lattice Gases Pub Date : 2023-08-31 DOI:arxiv-2309.00165
M. Gaber, Raquel H. Ribeiro, J. Kozicki
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Abstract

We introduce the first extension of a Lattice Gas Automaton (LGA) model to accurately replicate observed emergent phenomena in granular materials with a special focus on previously unexplored jamming transitions by incorporating gravitational effects, energy dissipation in particle collisions, and wall friction. We successfully reproduce flow rate evolution, density wave formation, and jamming transition observed in experiments. We also explore the critical density at which jamming becomes probable. This research advances our understanding of granular dynamics and offers insights into the jamming behavior of granular materials.
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从流动到干扰:颗粒材料中的点阵气体自动机模拟
我们引入了晶格气体自动机(LGA)模型的第一个扩展,以准确地复制颗粒材料中观察到的紧急现象,特别关注以前未探索的干扰过渡,通过结合引力效应,粒子碰撞中的能量耗散和壁摩擦。我们成功地再现了实验中观察到的流量演化、密度波形和干扰转变。我们还探讨了可能发生干扰的临界密度。这项研究促进了我们对颗粒动力学的理解,并为颗粒材料的干扰行为提供了见解。
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arXiv - PHYS - Cellular Automata and Lattice Gases
arXiv - PHYS - Cellular Automata and Lattice Gases
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