https://doi.org/10.1140/epjb/e2009-00111-x
Lateral shaping and stability of a stretching viscous sheet
1
School of Engineering and Applied Sciences,
Harvard University, 02138, Cambridge, MA, USA
2
Saint-Gobain Recherche, 39 Quai Lucien Lefranc,
B.P. 135, 93303 Aubervilliers Cedex, France
Corresponding author: a bscheid@seas.harvard.edu
Received:
24
July
2008
Revised:
13
January
2009
Published online:
25
March
2009
We investigate the changes of shape of a stretching viscous sheet by controlling the forcing at the lateral edges, which we refer to as lateral shaping. We propose a one-dimensional model to study the dynamics of the viscous sheet and systematically address stability with respect to draw resonance. Two class of lateral forcing are considered: (i) for the case that the stress at the edges is specified, we show that a pure outward normal stress Sn is usually unfavorable to the draw resonance instability as compared to the case of stress-free lateral boundaries. Alternatively, a pure streamwise tangential stress St is stabilizing; (ii) for the case that the lateral velocity at the edges is specified, we show that the stability properties are problem specific but can be rationalized based on the induced stress components (Sn,St).
PACS: 47.15.gm – Thin film flows / 47.20.Gv – Viscous and viscoelastic instabilities / 47.85.M- – Material processing flows; industrial applications
© EDP Sciences, Società Italiana di Fisica, Springer-Verlag, 2009
