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Meccanica

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02-11-2016

Cessation of Newtonian circular and plane Couette flows with wall slip and non-zero slip yield stress

Authors: Maria Philippou, Yiolanda Damianou, Xenia Miscouridou, Georgios C. Georgiou

Published in: Meccanica | Issue 9/2017

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Abstract

We solve analytically the cessation flows of a Newtonian fluid in circular and plane Couette geometries assuming that wall slip occurs provided that the wall shear stress exceeds a critical threshold, the slip yield stress. In steady-state, slip occurs only beyond a critical value of the angular velocity of the rotating inner cylinder in circular Couette flow or of the speed of the moving upper plate in plane Couette flow. Hence, in cessation, the classical no-slip solution holds if the corresponding wall speed is below the critical value. Otherwise, slip occurs only initially along both walls. Beyond a first critical time, slip along the fixed wall ceases, and beyond a second critical time slip ceases also along the initially moving wall. Beyond this second critical time no slip is observed and the decay of the velocity is faster. The velocity decays exponentially in all regimes and the decay is reduced with slip. The effects of slip and the slip yield stress are discussed.

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Title: Cessation of Newtonian circular and plane Couette flows with wall slip and non-zero slip yield stress
Authors: Maria Philippou
Yiolanda Damianou
Xenia Miscouridou
Georgios C. Georgiou
Publication date: 02-11-2016
Publisher: Springer Netherlands
Published in: Meccanica / Issue 9/2017
Print ISSN: 0025-6455
Electronic ISSN: 1572-9648
DOI: https://doi.org/10.1007/s11012-016-0565-1

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