References
- Middleman, S. (1977) Fundamentals of Polymer Processing; McGraw-Hill: New York.
- Ryan, M.E., and Dutta, A. (1982) Mathematical modeling of the blow-molding process. Polymer Engineering and Science, 22:1075–1083.
- Dutta, A., and Ryan, M.E. (1984) Confined parison inflation behavior of a high-density polyethylene. Polymer Engineering and Science, 24:1232–1239.
- Ryan, M.E., and Dutta, A. (1982) The dynamics of parison free inflation in extrusion blow molding. Polymer Engineering and Science, 22:569–577.
- Chung, S.C.K., and Stevenson, J.F. (1975) A general elongational flow experiment: inflation and extension of a viscoelastic tube. Rheologica Acta,14:832–841.
- Khayat, R.E., and Garcia-Rejon, A. (1992) Uniaxial and biaxial unsteady inflations of a viscoelastic material. Journal of Non-Newtonian Fluid Mechanics, 43:31–59.
- Schmidt, F.M., Agassant, J.F.,Bellet, M., and Desoutter, L. (1996) Viscoelastic simulation of P.E.T. stretch/blow molding. Journal of Non-Newtonian Fluid Mechanics, 64:19–42.
- Schmidt, F.M., Rodriguez-Villa, Α., Agassant, F., and Bellet, M. (2000) Analytical models for the inflation of a polymeric tube. European Journal of Mechanics-A/Solids, 19:89.
- Bird, R.B., Armstrong, R.C., and Hassager, O. 1987 Dynamics of Polymeric Liquids, 2 ed., Vol. I, Fluid Mechanics; Wiley: New York.
- Tsenoglou, C.J., Voyiatzis, E., and Gotsis, A.D. (2006) Simple constitutive modelling of nonlinear viscoelasticity under general extension. Journal of Non-Newtonian Fluid Mechanics, 138:33–43.
- Doi, M., and Edwards, S.F. (1988) The Theory of Polymer Dynamics; Oxford University Press: Oxford.
- Larson, R.G. (1988) Constitutive Equations for Polymer Melts and Solutions; Butterworth-Heinemann: Boston.
- Gotsis, A.D., Zeevenhoven, B.L.F., and Tsenoglou, C. (2004) Effect of long branches on the rheology of polypropylene. Journal of Rheology, 48:895–914.
- Truesdell, C. (1984) The Elements of Continuum Mechanics; Springer: New York.
- Abramowitz, M., and Stegun, I. A. (1972) Handbook of Mathematical Functions with Formulas, Graphs, and Mathematical Tables; Dover Publications: New York.
- Wagner, M.H., and Demarmels, A. (1990) A Constitutive Analysis of Extensional Flows of Polyisobutylene. Journal of Rheology, 34:943–958.
- Wagner, M.H., Ehrecke, P., Hachmann, P., and Meissner, J. (1998) A constitutive analysis of uniaxial, equibiaxial and planar extension of a commercial linear high density polyethylene melt. Journal of Rheology, 42:621–638.
- Wagner, M.H. (1978) Constitutive analysis of uniaxial elongational flow data of a low-density polyethylene melt. Journal of Non-Newtonian Fluid Mechanics, 4:39–55.
- McKinley, G.H., and Hassager, O. (1999) The Considère condition and rapid stretching of linear and branched polymer melts. Journal of Rheology, 43:1195.
- Wang, Y., Boukany, P., Wang, S.Q., and Wang, X. (2007) Elastic breakup in uniaxial extension of entangled polymer melts. Physical Review Letters, 99:237801.
- Demarmels, A., and Meissner, J. (1986) Multiaxial elongation of polyisobutylene and the predictions of several network theories. Colloid and Polymer Science, 264:829–846.
- Laun, H.M., and Schuch, H. (1989) Transient elongational viscosities and drawability of polymer melts. Journal of Rheology, 33:119–175.
- Takahashi, M., Isaki, T., Takigawa, T., Masuda, T. (1993) Measurement of biaxial and uniaxial extensional flow behaviour of polymer melts at constant strain rates. Journal of Rheology, 827–846.