Structural transitions in jammed asymmetric bidisperse granular packings

IF 2.3 3区 工程技术 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY
Juan C. Petit, Matthias Sperl
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引用次数: 1

Abstract

We study the local structural changes along the jamming transitions in asymmetric bidisperse granular packings. The local structure of the packing is assessed by the contact orientational order, \(\tilde{Q}_{\ell }\), that quantifies the contribution of each contact configuration (Large–Large, Small–Small, Large–Small, Small–Large) in the jammed structure. The partial values of \(\tilde{Q}_{\ell }\) are calculated with respect to known ordered lattices that are fixed by the size ratio, \(\delta \), of the particles. We find that the packing undergoes a structural transition at \(\phi _J\), manifested by a sudden jump in the partial \(\tilde{Q}_{\ell }\). Each contact configuration contributes to the jammed structure in a different way, changing with \(\delta \) and concentration of small particles, \(X_{\textrm{S}}\). The results show not only that the packing undergoes a structural change upon jamming, but also that bidisperse packings exhibit local HCP and FCC structures also found in monodisperse packings. This suggests that the jammed structure of bidisperse systems is inherently endowed with local structural order. These results are relevant in understanding how the arrangement of particles determines the strength of bidisperse granular packings.

Graphic abstract

Abstract Image

堵塞非对称双分散颗粒填料中的结构转变
研究了非对称双分散颗粒填料在干扰转变过程中的局部结构变化。填料的局部结构通过接触方向顺序\(\tilde{Q}_{\ell }\)进行评估,该顺序量化了每个接触配置(大-大,小-小,大-小,小-大)在堵塞结构中的贡献。\(\tilde{Q}_{\ell }\)的偏值是根据已知的有序晶格计算的,这些有序晶格由粒子的尺寸比\(\delta \)固定。我们发现填料在\(\phi _J\)处经历了结构转变,表现为部分\(\tilde{Q}_{\ell }\)的突然跳跃。每一种接触结构都以不同的方式导致结构堵塞,随着\(\delta \)和小颗粒浓度\(X_{\textrm{S}}\)的变化而变化。结果表明,填料在受干扰时不仅会发生结构变化,而且双分散填料也会出现单分散填料中存在的局部HCP和FCC结构。这表明双分散系统的堵塞结构具有固有的局部结构秩序。这些结果与理解颗粒的排列如何决定双分散颗粒填料的强度有关。图形摘要
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来源期刊
Granular Matter
Granular Matter Materials Science-General Materials Science
CiteScore
4.60
自引率
8.30%
发文量
95
审稿时长
6 months
期刊介绍: Although many phenomena observed in granular materials are still not yet fully understood, important contributions have been made to further our understanding using modern tools from statistical mechanics, micro-mechanics, and computational science. These modern tools apply to disordered systems, phase transitions, instabilities or intermittent behavior and the performance of discrete particle simulations. >> Until now, however, many of these results were only to be found scattered throughout the literature. Physicists are often unaware of the theories and results published by engineers or other fields - and vice versa. The journal Granular Matter thus serves as an interdisciplinary platform of communication among researchers of various disciplines who are involved in the basic research on granular media. It helps to establish a common language and gather articles under one single roof that up to now have been spread over many journals in a variety of fields. Notwithstanding, highly applied or technical work is beyond the scope of this journal.
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