INSTABILITY OF LIQUID COATINGS ON CYLINDRICAL SURFACES

Capillary instability of long annular viscous liquid layers coating th e surface of a cylindrical wire is studied. Effects of Reynolds number , Re, initial disturbance wave numbers, k, and wire radii, s on the gr owth rate of the instability are considered. The initial disturbance a mplitude is chosen as 5% of the initial unperturbed liquid thickness. It is found that the growth rate of the disturbance amplitude is compo sed of a Linear portion, which is well predicted by the linear theory, and a relatively flat portion, which is not predicted by the linear t heory and is strongly dependent on the Re, k, and s. A unique feature of this instability is a double pinch-off process (in certain paramete r range) which results in the formation of secondary satellite drops. (C) 1995 American Institute of Physics.