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Rheological Behaviour for Polymer Melts and Concentrated SolutionsPart Ⅱ: Material Function with Nagai Chain Constraints and Determination of Their Parameters from Flow Curves 被引量:3

Rheological Behaviour for Polymer Melts and Concentrated Solutions Part Ⅱ: Material Function with Nagai Chain Constraints and Determination of Their Parameters from Flow Curves
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摘要 An integral constitutive equation and a set of material functions for describing the strain history of polymer melts were formulated in terms of the Cauchy-Green and Finger tensors. A simple memory function and the dependence of ηo and τt on M3.4 were derived from the theory of non-linear viscoelasticity with constraints of entanglements for polymer melts and substituted into the Oldroye-Walters-Fredickson constitutive equation. An integral constitutive equation for polymer melts was consequently obtained. Some material functions of the constitutive equation related to certain 'test flow' are examined as follows : (1) simple steady shear flow; (2) steady elongation flow; (3) small-amplitude oscillatory shear flow; (4) stress growth upon the inception of steady shear elongation flow; (5) stress relaxation (modulus and compllance). These theoretical relations for simple steady shear flow were compared with experimental data from our laboratory and references for various polymer melts and concentrated solutions. A good agreement between the theory and experiment was achieved. An integral constitutive equation and a set of material functions for describing the strain history of polymer melts were formulated in terms of the Cauchy-Green and Finger tensors. A simple memory function and the dependence of ηo and τt on M3.4 were derived from the theory of non-linear viscoelasticity with constraints of entanglements for polymer melts and substituted into the Oldroye-Walters-Fredickson constitutive equation. An integral constitutive equation for polymer melts was consequently obtained. Some material functions of the constitutive equation related to certain 'test flow' are examined as follows : (1) simple steady shear flow; (2) steady elongation flow; (3) small-amplitude oscillatory shear flow; (4) stress growth upon the inception of steady shear elongation flow; (5) stress relaxation (modulus and compllance). These theoretical relations for simple steady shear flow were compared with experimental data from our laboratory and references for various polymer melts and concentrated solutions. A good agreement between the theory and experiment was achieved.
出处 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 1995年第2期141-152,共12页 材料科学技术(英文版)
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  • 1HR.
  • 2AA.
  • 3A.S.Lodge.Elastic Liquids. . 1964
  • 4K. Yasuda,R. C. Armstrong,R. E. Cohen.Shear flow properties of concentrated solutions of linear and star branched polystyrenes[J]. Rheologica Acta . 1981 (2)
  • 5Carreau,PJ. Rheological Equations for Molecular Network Theories . 1968
  • 6R.B.Bird,R.C.Armstrong,O.Hassager.Dynamics of Polymeric Liquids Vol1, Fluid Mechanics. . 1987
  • 7Astarita,G,Marrucci,G. Principles of non-newtonian fluid mechanics . 1974
  • 8C. A. Hieber,H. H. Chiang.Some correlations involving the shear viscosity of polystyrene melts[J]. Rheologica Acta . 1989 (4)
  • 9R.B.Bird,R.C.Armstrong,O.Hassager.Dynamics of Polymeric Liquids Vo1, Fluid Mechanics. . 1987
  • 10T. W. Chan,B. Pan,H. Yuan.An experimental study of exit pressures for polymer melts[J]. Rheologica Acta . 1990 (1)

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