Polymer melts and solutions exhibit an increase in cross-sectional area whenever they emerge from dies or conduits. Four mechanisms are considered to be responsible for this phenomenon: Newtonian swell, sudden elastic recovery, inelastic swell and stress relaxation. Various models for Newtonian and viscoelastic fluids and theories are discussed and critically examined. These include finite-element methods, concepts based on the theory of rubber elasticity, and Tanner's ″elastic″ and ″in-elastic″ theories. The results of numerous experimental observations, available in the literature, on such aspects as the effect of length/diameter ratio, molecular weight distribution and temperature are summarized. Formula for die swell are presented for capillary and slit dies, and the problems associated with their applications are discussed.
Authors
Vlachopoulos J
Journal
Reviews on the Deformation Behavior of Materials, Vol. 3, No. 4, pp. 219–248