软胶体在打浆上下的微流体力学生理学。

Microfluidic rheology of soft colloids above and below jamming.

机构信息

Department of Physics and Astronomy, University of Pennsylvania, Philadelphia, 19104, USA.

出版信息

Phys Rev Lett. 2010 Oct 22;105(17):175701. doi: 10.1103/PhysRevLett.105.175701. Epub 2010 Oct 21.

DOI:10.1103/PhysRevLett.105.175701

Abstract

The rheology near jamming of a suspension of soft colloidal spheres is studied using a custom microfluidic rheometer that provides the stress versus strain rate over many decades. We find non-Newtonian behavior below the jamming concentration and yield-stress behavior above it. The data may be collapsed onto two branches with critical scaling exponents that agree with expectations based on Hertzian contacts and viscous drag. These results support the conclusion that jamming is similar to a critical phase transition, but with interaction-dependent exponents.

摘要

使用定制的微流控流变仪研究了软胶体球悬浮液在临近阻塞时的流变学特性，该流变仪可在几十年的时间跨度内提供应力与应变速率的关系。我们发现，在阻塞浓度以下呈现出非牛顿行为，而在其以上则呈现出屈服应力行为。这些数据可以分为两个分支进行收缩，其临界标度指数与基于赫兹接触和粘性阻力的预期相符。这些结果支持了阻塞类似于临界相变的结论，但具有与相互作用相关的指数。

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软胶体在打浆上下的微流体力学生理学。

Microfluidic rheology of soft colloids above and below jamming.

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软胶体在打浆上下的微流体力学生理学。

Microfluidic rheology of soft colloids above and below jamming.

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出版信息

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