Jamming transition in a two-dimensional open granular pile with rolling resistance

IF 1.2 Q3 PHYSICS, MULTIDISCIPLINARY Papers in Physics Pub Date : 2014-10-27 DOI:10.4279/PIP.060007
C. F. M. Magalhães, A. Atman, G. Combe, J. Moreira
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引用次数: 12

Abstract

We present a molecular dynamics study of the jamming/unjamming transition in two-dimensional granular piles with open boundaries. The grains are modeled by viscoelastic forces, Coulomb friction and resistance to rolling. Two models for the rolling resistance interaction were assessed:  one considers a constant rolling friction coefficient, and the other one a strain dependent coefficient. The piles are grown on a finite size substrate and subsequently discharged through an orifice opened at the center of the substrate. Varying the orifice width and taking the final height of the pile after the discharge as the order parameter, one can devise a transition from a jammed regime (when the grain flux is always clogged by an arch) to a catastrophic regime, in which the pile is completely destroyed by an avalanche as large as the system size. A finite size analysis shows that there is a finite orifice width associated with the threshold for the unjamming transition, no matter the model used for the microscopic interactions. As expected, the value of this threshold width increases when rolling resistance is considered, and it depends on the model used for the rolling friction. Received: 14 June 2014,  Accepted: 7 October 2014;  Reviewed by: R. Arevalo, School of Physical and Mathematical Sciences, Nanyang Technological University, Singapore;  Edited by: L. A. Pugnaloni;  DOI: http://dx.doi.org/10.4279/PIP.060007 Cite as: C F M. Magalhaes, A P F Atman, G Combe, J G Moreira, Papers in Physics 6, 060007 (2014)
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具有滚动阻力的二维开孔颗粒桩的干扰过渡
本文研究了具有开放边界的二维颗粒桩中干扰/解干扰过渡的分子动力学问题。用粘弹性力、库仑摩擦和滚动阻力对晶粒进行了建模。评估了滚动阻力相互作用的两种模型:一种考虑恒定的滚动摩擦系数,另一种考虑应变依赖系数。桩在有限尺寸的基板上生长,随后通过在基板中心打开的孔排出。改变孔口宽度,并以放电后桩的最终高度作为序参量,可以设计出从堵塞状态(当颗粒通量总是被拱阻塞时)到灾难性状态的过渡,在这种状态下,桩被与系统大小相同的雪崩完全摧毁。有限尺寸分析表明,无论微观相互作用采用何种模型,都存在一个有限的孔口宽度与脱阻过渡阈值相关。正如预期的那样,当考虑滚动阻力时,该阈值宽度的值增加,并且取决于用于滚动摩擦的模型。收稿日期:2014年6月14日,收稿日期:2014年10月7日;评审:R. Arevalo,新加坡南洋理工大学物理与数学科学学院;编辑:L. A. Pugnaloni;引用本文:C F M. Magalhaes, A P F Atman, G Combe, J G Moreira, Papers in Physics 6, 060007 (2014)
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来源期刊
Papers in Physics
Papers in Physics PHYSICS, MULTIDISCIPLINARY-
CiteScore
1.90
自引率
0.00%
发文量
13
期刊介绍: Papers in Physics publishes original research in all areas of physics and its interface with other subjects. The scope includes, but is not limited to, physics of particles and fields, condensed matter, relativity and gravitation, nuclear physics, physics of fluids, biophysics, econophysics, chemical physics, statistical mechanics, soft condensed matter, materials science, mathematical physics and general physics. Contributions in the areas of foundations of physics, history of physics and physics education are not considered for publication. Articles published in Papers in Physics contain substantial new results and ideas that advance the state of physics in a non-trivial way. Articles are strictly reviewed by specialists prior to publication. Papers in Physics highlights outstanding articles published in the journal through the Editors'' choice section. Papers in Physics offers two distinct editorial treatments to articles from which authors can choose. In Traditional Review, manuscripts are submitted to anonymous reviewers seeking constructive criticism and editors make a decision on whether publication is appropriate. In Open Review, manuscripts are sent to reviewers. If the paper is considered original and technically sound, the article, the reviewer''s comments and the author''s reply are published alongside the names of all involved. This way, Papers in Physics promotes the open discussion of controversies among specialists that are of help to the reader and to the transparency of the editorial process. Moreover, our reviewers receive their due recognition by publishing a recorded citable report. Papers in Physics publishes Commentaries from the reviewer(s) if major disagreements remain after exchange with the authors or if a different insight proposed is considered valuable for the readers.
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