流体动力学和接触对胶体悬浮液中连续剪切增稠的贡献。

Hydrodynamic and Contact Contributions to Continuous Shear Thickening in Colloidal Suspensions.

作者信息

Lin Neil Y C, Guy Ben M, Hermes Michiel, Ness Chris, Sun Jin, Poon Wilson C K, Cohen Itai

机构信息

Department of Physics, Cornell University, Ithaca, New York 14853, USA.

SUPA, School of Physics and Astronomy, University of Edinburgh, Edinburgh EH9 3FD, United Kingdom.

出版信息

Phys Rev Lett. 2015 Nov 27;115(22):228304. doi: 10.1103/PhysRevLett.115.228304. Epub 2015 Nov 25.

DOI:10.1103/PhysRevLett.115.228304

PMID:26650321

Abstract

Shear thickening is a widespread phenomenon in suspension flow that, despite sustained study, is still the subject of much debate. The longstanding view that shear thickening is due to hydrodynamic clusters has been challenged by recent theory and simulations suggesting that contact forces dominate, not only in discontinuous, but also in continuous shear thickening. Here, we settle this dispute using shear reversal experiments on micron-sized silica and latex particles to measure directly the hydrodynamic and contact force contributions to shear thickening. We find that contact forces dominate even continuous shear thickening. Computer simulations show that these forces most likely arise from frictional interactions.

摘要

剪切增稠是悬浮流中一种普遍存在的现象，尽管对此进行了持续研究，但仍是众多争论的主题。长期以来认为剪切增稠是由流体动力学团簇引起的观点，受到了近期理论和模拟的挑战，这些理论和模拟表明，接触力不仅在不连续剪切增稠中起主导作用，在连续剪切增稠中也起主导作用。在此，我们通过对微米级二氧化硅和乳胶颗粒进行剪切反转实验，直接测量流体动力学和接触力对剪切增稠的贡献，从而解决这一争议。我们发现，即使在连续剪切增稠中，接触力也占主导地位。计算机模拟表明，这些力很可能源于摩擦相互作用。

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流体动力学和接触对胶体悬浮液中连续剪切增稠的贡献。

Hydrodynamic and Contact Contributions to Continuous Shear Thickening in Colloidal Suspensions.

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