Force percolation transition of jammed granular systems

Sudhir N. Pathak; Valentina Esposito; Antonio Coniglio; Massimo Pica Ciamarra

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Force percolation transition of jammed granular systems

机译：堵塞粒状系统的力渗透过渡

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Themechanical and transport properties of jammedmaterials originate from an underlying percolating network of contact forces between the grains. Using extensive simulations we investigate the force-percolation transition of this network, where two particles are considered as linked if their interparticle force overcomes a threshold. We show that this transition belongs to the random percolation universality class, thus ruling out the existence of long-range correlations between the forces. Through a combined size and pressure scaling for the percolative quantities, we show that the continuous force percolation transition evolves into the discontinuous jamming transition in the zero pressure limit, as the size of the critical region scales with the pressure.

机译：Jammed材料的机械和运输特性来自谷物之间的接触力的底层渗透网络。使用广泛的仿真，我们研究了该网络的力渗流过渡，如果它们的颗粒力克服阈值，则认为两个颗粒被认为是连接的。我们表明这种转变属于随机渗透普遍性等级，从而统治力之间的远程相关性。通过组合尺寸和压力缩放的渗透量，我们表明连续力渗透转变在零压下的不连续的干扰转变中，随着临界区域的尺寸与压力缩放。

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来源
《PHYSICAL REVIEW E》 |2017年第4期|042901.1-042901.6|共6页
作者
Sudhir N. Pathak; Valentina Esposito; Antonio Coniglio; Massimo Pica Ciamarra;
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Division of Physics and Applied Physics School of Physical and Mathematical Sciences Nanyang Technological University 637371 Singapore;

Dipartimento di Matematica e Fisica Universita degli studi della Campania 'Luigi Vanvitelli ' Viale Lincoln 5 81100 Caserta Italy;

CNR–SPIN Dipartimento di Scienze Fisiche Universita di Napoli Federico II I-80126 Napoli Italy;

Division of Physics and Applied Physics School of Physical and Mathematical Sciences Nanyang Technological University 637371 Singapore CNR–SPIN Dipartimento di Scienze Fisiche Universita di Napoli Federico II I-80126 Napoli Italy;

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1. Force percolation transition of jammed granular systems [J] . Sudhir N. Pathak, Valentina Esposito, Antonio Coniglio, Physical review, E . 2017,第4aPta2期

机译：堵塞粒状系统的力渗透过渡
2. Jamming Transition and New Percolation Universality Classes in Particulate Systems with Attraction [J] . Gregg Lois, Jerzy Blawzdziewicz, Corey S. OHern Physical review letters . 2008,第2期

机译：具吸引力的粒子系统中的干扰跃迁和新的渗流通用性类
3. Frozen-to-jamming-to-fluid Transition of Weakly Sheared Granular Systems by Low-frequency Mechanical Spectroscopy [J] . Hanyu?Tang, Na?Wang, Changsong?Liu, Materials Research . 2018,第suppla2期

机译：弱剪切颗粒系统的冷冻-堵塞-流体转变的低频机械能谱
4. NUMERICAL SIMULATION OF JAMMING TRANSITION IN GRANULAR SYSTEM UNDER CYCLIC COMPRESSION USING SMOOTH PARTICLE HYDRODYNAMICS [C] . Raihan Tayeb, Yijin Mao, Yuwen Zhang ASME international mechanical engineering congress and exposition . 2017

机译：颗粒压缩流体动力学在循环压缩条件下粒状系统内过渡过程的数值模拟
5. Structure, dynamics, and forces of jammed systems [D] . Desmond, Kenneth Wayne 2012

机译：卡塞系统的结构，动力学和力
6. Exact solution of a jamming transition: Closed equations for a bootstrap percolation problem [O] . Paolo De Gregorio, Aonghus Lawlor, Phil Bradley, 2005

机译：干扰转换的精确解：自举渗流问题的封闭方程
7. Force Percolation Transition of Jammed Granular Systems [O] . Pathak, Sudhir N., Esposito, Valentina, Coniglio, Antonio, 2017

机译：干扰颗粒系统的力渗透转变

Force percolation transition of jammed granular systems

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