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Literature DB >> 11531582

Rate-dependent slip of Newtonian liquid at smooth surfaces.

Abstract

Newtonian fluids were placed between molecularly smooth surfaces whose spacing was vibrated at spacings where the fluid responded as a continuum. Hydrodynamic forces agreed with predictions from the no-slip boundary condition only provided that flow rate (peak velocity normalized by spacing) was low, but implied partial slip when it exceeded a critical level, different in different systems, correlated with contact angle (surface wettability). With increasing flow rate and partially wetted surfaces, hydrodynamic forces became up to 2-4 orders of magnitude less than expected by assuming the no-slip boundary condition that is commonly stated in textbooks.

Year: 2001 PMID： 11531582 DOI： 10.1103/PhysRevLett.87.096105

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

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Cited

17 in total

Rate-dependent slip of Newtonian liquid at smooth surfaces.

1. Evidence of shear-dependent boundary slip in Newtonian liquids.

2. Effect of slippage on the thermocapillary migration of a small droplet.

3. 111 years of Brownian motion.

4. Dynamics of simple liquids at heterogeneous surfaces: molecular-dynamics simulations and hydrodynamic description.

5. Recent progress in understanding hydrophobic interactions.

6. Acoustic physics of surface-attached biochemical species.

7. An atomistic-continuum hybrid simulation of fluid flows over superhydrophobic surfaces.

8. Novel method of generating water-in-oil(W∕O) droplets in a microchannel with grooved walls.

9. Liquid water can slip on a hydrophilic surface.

Review 10. Molecular momentum transport at fluid-solid interfaces in MEMS/NEMS: a review.