Constitutive Equations for Polymeric Liquids

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Annu. Rev. Fluid Mech. 1995.27:169-193. Downloaded from www.annualreviews.orgby University of North Carolina - Chapel Hill/ACQ SRVCS on 11/05/11. For personal use only.190 BIRD & WIESTDoi M, Edwards SF. 1986. The Theory ofPolymer Dynamics. London: OxfordUniv. Press. 391 pp.Doremus P, Piau JM. 1991. Yield stress fluid.Structural model and transient shear flowbehavior. J. Non-Newtonian Fluid Mech.39: 335-52EI-Kareh AW, Leal LG. 1989. Existence ofsolutions for all Deborah numbers for anon-Newtonian model modified to includediffusion. J. Non-Newtonian Fluid Mech.33: 257-87Fan X. 1989a. Molecular models and flowcalculation: I. The numerical solutions tomulti bead-rod models in homogeneousflows. Acta Mech. Sinica 5: 49-59Fan X. 1989b. Molecular models and flowcalculation: II. Simulation of steadyplanar flow. Acta Mech. Sinica 5: 216-26Ferry JD. 1980. Viscoelastic Properties ofPolymers. New York: WileyGeurts BJ. 1988. An extension of the CurtissBird theory for the rheological propertiesof concentrated polymer solutions andmelts. J. Non-Newtonian Fluid Mech. 28:319-32Geurts BJ. 1989. The reptating rope model:viscometric functions for concentratedpolymer solutions and melts in shear flow.J. Non-Newtonian Fluid Mech. 31: 27-42Giesekus H. 1982. A simple constitutiveequation for polymer fluids based on theconcept of deformation-dependent tensorialmobility. J. Non-Newtonian FluidMech. II: 69-109Goddard JD. 1979. Polymer fluid mechanics.Adv. Appl. Mech. 19: 143-2 19Grmela M. 1991. Mesoscopic dynamics andthermodynamics: applications to polymericfluids. In Rheological Modelling:Thermodynamics and StatisticalApproaches, ed. 1 Casas-Vasquez, D Jou,Springer Lect. Notes Phys. 381: 99-125Hassager o. 1981. Variational principle forthe KBKZ rheological equation of statewith potential function. J. Non-NewtonianFluid Mech. 9: 321-28Hassager O. 1988. Working group onnumerical techniques. J. Non-NewtonianFluid Mech. 29: 2-5Hermann W, Petruccione F. 1992. Quantitativerheological predictions of a transientnetwork model of Lodge-Yamamototype: simple and multi-axial elongationalflow. J. Rheol. 36: 1461-76Hess W. 1984. Molecular theory for moderatelyconcentrated polymer solutions inshear flow. Rheo! Acta 23: 477-88Isayev AI, Fan X. 1990. Viscoelastic plasticconstitutive equation for flow of particlefilled polymers. J. Rheol. 34: 35-54Iyengar VR, Co A. 1993. Film casting ofa modified Giesekus fluid: a steady-stateanalysis. J. Non-Newtonian Fluid Mech.48: 1-20Jongschaap RJJ. 1990. Microscopic modellingof the flow properties of polymers.Rep. Prog. Phys. 53: I-55Jongschaap RJJ, de Haas KH, Damen CAJ.1994. A generic matrix representation ofconfiguration-tensor rheological models.J. Rheol. 38: 769-·96Joseph DD. 1990. Fluid Dynamics ofViscoelastic Fluids. New York: Wiley.755 pp.Kaye A. 1992. A constitutive equation for anon-Newtonian liquid. Rheo!. Acta 31: 3-13Keunings R. 1990. Progress and challengesin computational rheology. Rheol. Acta29: 556-70King RC, Apelian MR, Armstrong RC,Brown RA. 1988. Numerically stable finiteelement techniques for viscoelastic calculationsin smooth and singular geometries.J. Non-Newtonian Fluid Mech. 29:147-2 16Ko YS, Lodge AS. 1989. Slit die viscometryat shear rates up to 5 X 10 6 s- ' : an analyticcorrection for small viscous heating errors.Rheol. Acta 28: 464-72Ko YS, Lodge AS. 1991. Viscous heatingcorrection for thermally developing flowin slit-die geometry. Rheol. Acta 30: 357-68Kobe JM, Wiest 1M. 1993. Finitely extensiblebead-spring chain macromolecules insteady elongational flows. J. Rheol. 37:947-60Kolkka RW, Malkus DS, Hansen MG, lerleyGR, Worthing RA. 1988. Spurtphenomena of the Johnson-Segalmanfluid and related models. J. Non-NewtonianFluid Mech. 25: 93-127Kolkka RW, Malkus DS, Rose TR. 1991.Finite rise time step strain modeling ofnearly monodisperse polymer melts andsolutions. Rheol. Acta. 30: 430-46Kroger M, Loose W, Hess S. 1993. Rheologyand structural changes of polymer meltsvia nonequilibrium molecular dynamics.J. Rheol. 37: 1057-79Larson RG. 1988. Constitutive EquationsforPolymer Melts and Solutions. Boston:Butterworths. 364 pp.Larson RG. 1992. Instabilities in viscoelasticflows. Rheol. Acta 31: 213-63Laso M, O ttinger HC. 1993a. Calculation ofviscoelastic flow using molecular models:the CONNFESSIT approach. J. NonNewtonian Fluid Mech. 47: 1-20Laso M, O ttinger HC. 1993b. Von molekularenModellen zu komplexen Stromungen.Phys. HI. 49: 121-23
POLYMER CONSTITUTIVE EQUATIONS 191Annu. Rev. Fluid Mech. 1995.27:169-193. Downloaded from www.annualreviews.orgby University of North Carolina - Chapel Hill/ACQ SRVCS on 11/05/11. For personal use only.Leonov AI. 1987. On a class of constitutiveequations for viscoelastic liquids. J. NonNewtonian Fluid Mech. 25: I-59Liu TW. 1989. Flexible polymer chaindynamics and rheological properties insteady flows. J. Chem. Phys. 90: 5826-42Lodge AS. 1974. Body Tensor Fields in ContinuumMechanics. New York: Academic.319 pp.Lodge AS, Schieber JD, Bird, RB. 1988. TheWeissenberg effect at finite rotationspeeds. J. Chem. Phys. 88: 400 1-7Luo X, Tanner RI. 1987. A pseudo-time integralmethod for nonisothermal viscoelasticflows and its application toextrusion simulation. Rheol. Acta 26: 499-507Magda JJ, Baek SG, DeVries KL, LarsoRG. 1991. Shear flows of liquid crystalpolymers: measurements of the secondnormal stress difference and the Doimolecular theory. Macromolecules 24:4460-68Malkus DS, Nohel lA, Plohr BI. 1990.Dynamics of shear flow of a nonNewtonian fluid. J. Camp. Phys. 87:464-87Malkus DS, Nohel JA, Plohr BI. 1991.Analysis of new phenomena in shear flowof non-Newtonian fluids. SIAM J. Appl.Math. 51: 899-929Malkus DS, Nohel lA, Plohr BJ. 1993.Approximation of piston driven flows ofa non-Newtonian fluid. In DifferentialEquations, Dynamical Systems, and ControlScience, ed. KD Elworthy, WN Everitt,EB Lee, pp. 173-92. New York. MarcelDekkerManke CW, Williams MC. 1991. Transientstress responses predicted by the internalviscosity model in elongational flow.Rheol. Acta 30: 316-28Manke CW, Williams MC. 1993. Comparisonof a new internal viscosity modelwith other constrained-connector theoriesof dilute polymer solution rheology.Rheol. Acta 32: 418-21Marrucci G. 1972. The free energy constitutiveequation for polymer solutionsfrom the dumbbell model. Trans. Soc.Rheol. 16: 321-30Mavrantzas VG, Beris AN. 1994. On thecompatibility between various macroscopicformalisms for the concentrationand flow of dilute polymer solutions. J.Rheo/. 38McClelland MA, Finlayson BA. 1988a.Squeezing flow of highly viscous polymers.J. Rheol. 32: 101-33McClelland MA, Finlayson BA. 1988b.Heat transfer effects in extrudate swell ofelastic liquids. J. Non-Newtonian FluidMech. 27: 363-74Mead D, Herbolzhiemer EA, Leal LG. 1992.The effect of segmental stretch on theoreticalpredictions of the Doi-Edwardsmodel. See Moldenaers & Keunings 1992,pp. IOI-2Meissner 1. 1985. Rheometry of polymermelts. Annu. Rev. Fluid Mech. 17: 45-64Meissner J, Hostettler J. 1994. A new elongationalrheometer for polymer melts andother highly viscoelastic liquids. Rheol.Acta 33: 1-21Metzner AB. 1965. Heat transfer in nonNewtonian fluids. Adv. Heat Trans. 2:357-97Moldenaers P, Keunings R, eds. 1992.Theoretical and Applied Rheology. Proc.Xlth Int. Congr on Rheology, Brussels.Amsterdam: Elsevier. 1020 pp.Morland LW, Lee EH. 1960. Stress analysisfor linear viscoelastic materials with temperaturevariation. Trans. Soc. Rheol. 4:233-63Ng RC-Y, Leal LG. 1993. A study of theinteracting FENE dumbbell model forsemi-dilute polymer solutions in extensionalflows. Rheol. Acta 32: 25-35Ohl N, Gleissle W. 1992. The second normalstress difference for pure and highly filledviscoelastic fluids. Rheol. Acta 31: 294-305Oldroyd JG. 1950. On the formulation ofrheological equations of state. Proc. Roy.Soc. London Ser. A 200: 523-41Oldroyd JG 1958. Non-Newtonian effects insteady motion of some idealized elasticoviscousfluids. Proc. Roy. Soc. London Ser.A 245: 278-97Oldroyd JG. 1964. An approach to nonNewtonian fluid mechanics. J. NonNewtonian Fluid Mech. 14: 9-16 (posthu.. mous)Ottinger He. 1987. A model of dilute polymersolutions with hydrodynamic interactionsand finite extensibility. I. Basicequations and series expansions. J. NonNewtonian Fluid Mech. 26: 207-46O ttinger HC. 1991. A class of multiparticleconstitutive equations. J. Rheol. 35: 1275-301O ttinger HC. 1992. Incorporation of polymerdiffusivity and migration into consti.. tutive equations. Rheol. Acta 31: 14-21Ottinger HC 1995. Stochastic Processes inPolymeric Fluids: Tools and Examples fo rDeveloping Simulation Algorithms. Berlin:. . Springer-Verlag. In pressOttinger HC, Laso M. 1994. Bridging thegap between molecular models and viscoelasticflow calculations. In Lectures onThermodynamics and Statistical Mechanics.ed. M Lopez de Haro, C Varea, pp.1-15. Singapore: World ScientificPearson IRA. 1984. Mechanics of PolymerProcessing. London: Elsevier. 712 pp.
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