Oscillations of a solid sphere falling through a wormlike micellar fluid

A. Belmonte; A. Belmonte; A.M. Mollinger; Anandhan Jayaraman; Andrew Belmonte; C. Liu; D. Rajagopalan; D.D. Joseph; E. Cappelaere; E. Fischer; E.K. Wheeler; G. Porte; G.G. Stokes; H. Rehage; H. Rehage; H. Rehage; J.-F. Berret; J.-Y. Lee; L.M. Walker; L.M. Walker; M. Arigo; M.E. Cates; N.A. Spenley; O. Hassager; O. Radulescu; R. Bandyopadhyay; S. Kumar; S.L. Keller; T. Shikata; Y.I. Cho; Y.T. Hu; Y.Y. Renardy

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Oscillations of a solid sphere falling through a wormlike micellar fluid

Authors: A. Belmonte
A. Belmonte
A.M. Mollinger
Anandhan Jayaraman
Andrew Belmonte
C. Liu
D. Rajagopalan
D.D. Joseph
E. Cappelaere
E. Fischer
E.K. Wheeler
G. Porte
G.G. Stokes
H. Rehage
H. Rehage
H. Rehage
J.-F. Berret
J.-Y. Lee
L.M. Walker
L.M. Walker
M. Arigo
M.E. Cates
N.A. Spenley
O. Hassager
O. Radulescu
R. Bandyopadhyay
S. Kumar
S.L. Keller
T. Shikata
Y.I. Cho
Y.T. Hu
Y.Y. Renardy
Publication date: 23 May 2002
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We present an experimental study of the motion of a solid sphere falling through a wormlike micellar fluid. While smaller or lighter spheres quickly reach a terminal velocity, larger or heavier spheres are found to oscillate in the direction of their falling motion. The onset of this instability correlates with a critical value of the velocity gradient scale

\Gamma_{c}\sim 1

s

^{-1}

. We relate this condition to the known complex rheology of wormlike micellar fluids, and suggest that the unsteady motion of the sphere is caused by the formation and breaking of flow-induced structures.Comment: 4 pages, 4 figure

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