稠密颗粒悬浮液中的粘性到惯性转变

Viscous to Inertial Transition in Dense Granular Suspension.

作者信息

Tapia Franco, Ichihara Mie, Pouliquen Olivier, Guazzelli Élisabeth

机构信息

Earthquake Research Institute, The University of Tokyo, 1-1-1, Yayoi, Bunkyo-ku, Tokyo 113-0032, Japan.

Department of Mechanical Systems Engineering, Tokyo University of Agriculture and Technology, Koganei 183-8538, Tokyo, Japan.

出版信息

Phys Rev Lett. 2022 Aug 12;129(7):078001. doi: 10.1103/PhysRevLett.129.078001.

DOI:10.1103/PhysRevLett.129.078001

PMID:36018678

Abstract

Granular suspensions present a transition from a Newtonian rheology in the Stokes limit to a Bagnoldian rheology when inertia is increased. A custom rheometer that can be run in a pressure- or a volume-imposed mode is used to examine this transition in the dense regime close to jamming. By varying systematically the interstitial fluid, shear rate, and packing fraction in volume-imposed measurements, we show that the transition takes place at a Stokes number of 10 independent of the packing fraction. Using pressure-imposed rheometry, we investigate whether the inertial and viscous regimes can be unified as a function of a single dimensionless number based on stress additivity.

摘要

颗粒悬浮液呈现出从斯托克斯极限下的牛顿流变学向惯性增加时的巴格诺尔德流变学的转变。使用一种可以在压力或体积施加模式下运行的定制流变仪来研究接近堵塞的致密状态下的这种转变。通过在体积施加测量中系统地改变间隙流体、剪切速率和填充率，我们表明转变发生在斯托克斯数为10时，与填充率无关。使用压力施加流变学，我们基于应力叠加研究惯性和粘性状态是否可以统一为一个单一无量纲数的函数。

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稠密颗粒悬浮液中的粘性到惯性转变

Viscous to Inertial Transition in Dense Granular Suspension.

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