Dewetting of thin polymer films near the glass transition

A. Dupré; A. Oron; C. Redon; E. Raphaël; F. Brochard-Wyart; F. E. C. Culick; F. Saulnier; G. Debrégeas; G. Debrégeas; G. I. Taylor; G. Reiter; G. Reiter; G. Reiter; J. B. Keller; J. C. Dyre; J. Koplik; K. Dalnoki-Veress; M. P. Brenner; P.-G. de Gennes; P.-G. de Gennes; R. M. Christensen; R. Seemann; S. Herminghaus; W. R. McEntee

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Dewetting of thin polymer films near the glass transition

Authors: A. Dupré
A. Oron
C. Redon
E. Raphaël
F. Brochard-Wyart
F. E. C. Culick
F. Saulnier
G. Debrégeas
G. Debrégeas
G. I. Taylor
G. Reiter
G. Reiter
G. Reiter
J. B. Keller
J. C. Dyre
J. Koplik
K. Dalnoki-Veress
M. P. Brenner
P.-G. de Gennes
P.-G. de Gennes
R. M. Christensen
R. Seemann
S. Herminghaus
W. R. McEntee
Publication date: 9 December 2002
Publisher: 'American Physical Society (APS)'
Doi

Abstract

Dewetting of ultra-thin polymer films near the glass transition exhibits unexpected front morphologies [G. Reiter, Phys. Rev. Lett., 87, 186101 (2001)]. We present here the first theoretical attempt to understand these features, focusing on the shear-thinning behaviour of these films. We analyse the profile of the dewetting film, and characterize the time evolution of the dry region radius,

R_{d}(t)

, and of the rim height,

h_{m}(t)

. After a transient time depending on the initial thickness,

h_{m}(t)

grows like

\sqrt{t}

while

R_{d}(t)

increases like

\exp{(\sqrt{t})}

. Different regimes of growth are expected, depending on the initial film thickness and experimental time range.Comment: 4 pages, 5 figures Revised version, published in Physical Review Letters: F. Saulnier, E. Raphael and P.-G. de Gennes, Phys. Rev. Lett. 88, 196101 (2002

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