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Literature DB >> 23373927

Drop formation in non-Newtonian fluids.

Mounir Aytouna¹, Jose Paredes, Noushine Shahidzadeh-Bonn, Sébastien Moulinet, Christian Wagner, Yacine Amarouchene, Jens Eggers, Daniel Bonn.

Abstract

We study the pinch-off dynamics of droplets of yield stress and shear thinning fluids. To separate the two non-Newtonian effects, we use a yield stress material for which the yield stress can be tuned without changing the shear thinning behavior, and a shear thinning system (without a yield stress) for which the shear thinning can be controlled over a large range, without introducing too much elasticity into the system. We find that the pinch-off remains very similar to that of constant viscosity Newtonian liquids, and consequently thinning in shear flow does not imply a thinning in elongational flow.

Year: 2013 PMID： 23373927 DOI： 10.1103/PhysRevLett.110.034501

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

7 in total

Drop formation in non-Newtonian fluids.

1. Accelerating Effects of Flow Behavior Index n on Breakup Dynamics for Droplet Evolution in Non-Newtonian Fluids.

2. Formation of Blood Droplets: Influence of the Plasma Proteins.

3. Viscoelastic Effects on Drop Deformation Using a Machine Learning-Enhanced, Finite Element Method.

4. Generation and Dynamics of Janus Droplets in Shear-Thinning Fluid Flow in a Double Y-Type Microchannel.

5. Breakup Dynamics of Semi-dilute Polymer Solutions in a Microfluidic Flow-focusing Device.

6. Fluid Rheological Effects on the Flow of Polymer Solutions in a Contraction-Expansion Microchannel.

7. Stringiness of hyaluronic acid emulsions.