Winding plastic films: Experimental study of squeeze film flow between one smooth surface and one "rough" surface
Abstract
The present paper is concerned with experiments which consist in squeezing an air layer between a rigid, smooth surface and a flexible, rough one. The experimental rig is composed of a smooth glass plate, with a circular slit allowing air aspiration to be done around it. A thin (few microns thick) plastic film is laid on the glass plate and air separating the glass and the film surfaces is removed by means of a vacuum pump. A circular front appears on the film surface, and moves towards the centre, as the film is pressed onto the glass plate. A monochromatic lamp is used to insulate the surfaces from above and Newton rings can be observed as the front moves. The duration of this operation is measured by a chronometer. Typically, the measured time depends on the plate diameter, the sub-ambient pressure exerted, the film flexural rigidity (or its thickness) and its surface roughness. A set of experiments have been carried out for several values of the sub-ambient pressure and of the slit diameter. The results are well reproducible: for a given sample, the characteristic time is proportional to the squared value of the diameter. The dependence on the sub-ambient pressure is more complicated. A simple model using a semi-empirical formulation is suggested on the basis of the experimental data.
Citation
Boutaous, M., & Bourgin, P. (1997, June). Winding plastic films: Experimental study of squeeze film flow between one smooth surface and one "rough" surface. Paper presented at the Fourth International Conference on Web Handling (IWEB), Stillwater, OK.