屈服应力流体的缓慢流动：简单弹塑性模型中的复杂时空行为。

Slow flows of yield stress fluids: Complex spatiotemporal behavior within a simple elastoplastic model.

作者信息

Picard Guillemette, Ajdari Armand, Lequeux François, Bocquet Lydéric

机构信息

Laboratoire P.C.T., UMR CNRS 7083, ESPCI, 10 rue Vauquelin, 75005 Paris, France.

出版信息

Phys Rev E Stat Nonlin Soft Matter Phys. 2005 Jan;71(1 Pt 1):010501. doi: 10.1103/PhysRevE.71.010501. Epub 2005 Jan 13.

DOI:10.1103/PhysRevE.71.010501

PMID:15697571

Abstract

A minimal athermal model for the flow of dense disordered materials is proposed, based on two generic ingredients: local plastic events occuring above a microscopic yield stress, and the nonlocal elastic release of the stress these events induce in the material. A complex spatiotemporal rheological behavior results, with features in line with recent experimental observations. At low shear rates, macroscopic flow actually originates from collective correlated bursts of plastic events, taking place in dynamically generated fragile zones. The related correlation length diverges algebraically at small shear rates. In confined geometries, bursts occur preferentially close to the walls, yielding an intermittent form of flow localization.

摘要

基于两个一般要素，提出了一种用于描述致密无序材料流动的最小无热模型：一是发生在微观屈服应力之上的局部塑性事件，二是这些事件在材料中引起的应力的非局部弹性释放。由此产生了一种复杂的时空流变行为，其特征与最近的实验观测结果一致。在低剪切速率下，宏观流动实际上源于塑性事件的集体相关爆发，这些爆发发生在动态生成的脆弱区域。相关关联长度在小剪切速率下呈代数发散。在受限几何结构中，爆发优先发生在靠近壁的位置，产生一种间歇性的流动局部化形式。

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屈服应力流体的缓慢流动：简单弹塑性模型中的复杂时空行为。

Slow flows of yield stress fluids: Complex spatiotemporal behavior within a simple elastoplastic model.

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