The instability of uniform viscous flow under rollers and spreaders

Abstract

When a thin film of viscous fluid is produced by passing it through a small gap between a roller or spreader and a flat plate, it often presents a waved, or ribbed, surface. An analysis is given here in terms of lubrication theory to show why in many cases flow leading to a uniform film is unstable. Account is taken of surface tension which proves to be a stabilizing factor. The most unstable values of the wave-number, n (characterizing the disturbance), are calculated as functions of the dimensionless variable T/μU₀, and of the geometry of the system; T is the surface tension, μ the viscosity and U₀ a representative velocity of the fluid. For the particular case of a spreader in the form of a wide-angled wedge, these predictions are compared with experimental observations. Agreement is obtained for values of T/μU₀ between about 10 and 0.1, but for smaller values of T/μU₀ it is clear that other considerations, involving only viscous and pressure forces, determine the nature of the secondary flow.