界面驱动的剪切带流体微通道流动不稳定性。

Interfacially driven instability in the microchannel flow of a shear-banding fluid.

机构信息

Laboratoire Microfluidique, MEMS et Nanostructures, UMR Gulliver CNRS-ESPCI 7083, France.

出版信息

Phys Rev Lett. 2010 Jun 18;104(24):248303. doi: 10.1103/PhysRevLett.104.248303. Epub 2010 Jun 17.

DOI:10.1103/PhysRevLett.104.248303

PMID:20867342

Abstract

Using microparticle image velocimetry, we resolve the spatial structure of the shear-banding flow of a wormlike micellar surfactant solution in a straight microchannel. We reveal an instability of the interface between the shear bands, associated with velocity modulations along the vorticity direction. We compare our results with a detailed theoretical study of the diffusive Johnson-Segalman model. The quantitative agreement obtained favors an instability scenario previously predicted theoretically but hitherto unobserved experimentally, driven by a normal stress jump across the interface between the bands.

摘要

我们使用微粒子成像测速法，解析了在直微通道中，类蠕虫状胶束表面活性剂溶液的剪切带流的空间结构。我们揭示了剪切带之间界面的不稳定性，这与涡度方向上的速度调制有关。我们将我们的结果与详细的扩散 Johnson-Segalman 模型理论研究进行了比较。获得的定量一致性支持了先前理论预测但迄今尚未实验观察到的不稳定性情景，这种不稳定性由带间的法向应力跃变驱动。

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界面驱动的剪切带流体微通道流动不稳定性。

Interfacially driven instability in the microchannel flow of a shear-banding fluid.

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