达芬奇流体、追赶动力学与密集颗粒流

da Vinci fluids, catch-up dynamics and dense granular flow.

作者信息

Blumenfeld R, Edwards S F, Schwartz M

机构信息

Institute of Shock Physics, Imperial College, London, UK.

出版信息

Eur Phys J E Soft Matter. 2010 Aug;32(4):333-8. doi: 10.1140/epje/i2010-10628-9. Epub 2010 Jul 29.

DOI:10.1140/epje/i2010-10628-9

PMID:20668906

Abstract

We introduce and study a da Vinci fluid, a fluid whose dissipation is dominated by solid friction. We analyse the flow rheology of a discrete model and then coarse-grain it to the continuum. We find that the model gives rise to behaviour that is characteristic of dense granular fluids. In particular, it leads to plug flow. We analyse the nucleation mechanism of plugs and their development. We find that plug boundaries generically expand and we calculate the growth rate of plug regions. In systems whose internal effective dynamic and static friction coefficients are relatively uniform we find that the linear size of plug regions grows as (time)¹(/)³ . The suitability of the model to granular materials is discussed.

摘要

我们引入并研究了一种达·芬奇流体，一种耗散主要由固体摩擦主导的流体。我们分析了一个离散模型的流动流变学，然后将其粗粒化为连续介质。我们发现该模型产生了稠密颗粒流体所特有的行为。特别是，它导致了栓塞流。我们分析了栓塞的成核机制及其发展。我们发现栓塞边界通常会扩展，并计算了栓塞区域的生长速率。在内部有效动摩擦系数和静摩擦系数相对均匀的系统中，我们发现栓塞区域的线性尺寸随（时间）¹(/)³ 增长。讨论了该模型对颗粒材料的适用性。

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达芬奇流体、追赶动力学与密集颗粒流

da Vinci fluids, catch-up dynamics and dense granular flow.

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达芬奇流体、追赶动力学与密集颗粒流

da Vinci fluids, catch-up dynamics and dense granular flow.

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出版信息

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