The entanglement concept in polymer rheology
10.1007/bfb0031037
Crossref book-chapter
Springer-Verlag
Advances in Polymer Science (297)
Bibliography

Graessley, W. W. (n.d.). The entanglement concept in polymer rheology. The Entanglement Concept in Polymer Rheology, 1–179.

Authors 1
  1. William W. Graessley (first)
References 399 Referenced 1,119
  1. Busse, W.F.: The physical properties of elastic colloids. J. Phys. Chem. 36, 2862–2879 (1932). (10.1021/j150342a002) / J. Phys. Chem. by W.F. Busse (1932)
  2. Treloar, L.R.G.: Elastic recovery and plastic flow in raw rubber. Trans. Faraday Soc. 36, 538–549 (1940). (10.1039/tf9403500538) / Trans. Faraday Soc. by L.R.G. Treloar (1940)
  3. Flory, P.J.: Network structure and the elastic properties of vulcanized rubber. Chem. Rev. 35, 51–75 (1944). (10.1021/cr60110a002) / Chem. Rev. by P.J. Flory (1944)
  4. Green, M.S., Tobolsky, A.V.: A new approach to the theory of relaxaing polymers media. J. Chem. Phys. 14, 80–92 (1946). (10.1063/1.1724109) / J. Chem. Phys. by M.S. Green (1946)
  5. Buchdahl, R.: Rheology of thermoplastic materials. I. Polystyrene. J. Colloid Sci. 3, 87–98 (1948). (10.1016/0095-8522(48)90060-9) / J. Colloid Sci. by R. Buchdahl (1948)
  6. Nielsen, L.E., Buchdahl, R.: Viscoelastic and photoelastic properties of polystyrene above its softening temperature. J. Colloid Sci. 5, 282–294 (1950). (10.1016/0095-8522(50)90031-6) / J. Colloid Sci. by L.E. Nielsen (1950)
  7. Bueche, F.: Viscosity, self-diffusion and allied effects in solid polymers. J. Chem. Phys. 20, 1959–1964 (1952). (10.1063/1.1700349) / J. Chem. Phys. by F. Bueche (1952)
  8. Bueche, F.: Viscosity of polymers in concentrated solutions. J. Chem. Phys. 25, 599–600 (1956). (10.1063/1.1742998) / J. Chem. Phys. by F. Bueche (1956)
  9. Fox, T.G., Flory, P.J.: Further studies on the melt viscosity of polyisobutylene. J. Phys. Colloid Chem. 55, 221–234 (1951). (10.1021/j150485a010) / J. Phys. Colloid Chem. by T.G. Fox (1951)
  10. Fox, T.G., Loshaek, S.: Isothermal viscosity-molecular weight dependence for long chains. J. Appl. Phys. 26, 1080–1082 (1955). (10.1063/1.1722154) / J. Appl. Phys. by T.G. Fox (1955)
  11. Ferry, J.D., Landel, R.F., Williams, M.L.: Extensions of the Rouse theory of viscoelastic properties to undiluted linear polymers. J. Appl. Phys. 26, 359–362 (1955). (10.1063/1.1721997) / J. Appl. Phys. by J.D. Ferry (1955)
  12. Lodge, A.S.: A network theory of flow birefringence and stress in concentrated polymer solutions. Trans. Faraday Soc. 52, 120–130 (1956). (10.1039/tf9565200120) / Trans. Faraday Soc. by A.S. Lodge (1956)
  13. Yamamoto, M.: The visco-elastic properties of network structure. I. General formalism. J. Phys. Soc. Japan 11, 413–421 (1956). (10.1143/JPSJ.11.413) / J. Phys. Soc. Japan by M. Yamamoto (1956)
  14. Lodge, A.S.: The isotropy of gaussian molecular networks and the stress-birefringence relations for rubberlike materials cross-linked in stressed states. Kolloid-Z. 171, 46–51 (1960). (10.1007/BF01520324) / Kolloid-Z. by A.S. Lodge (1960)
  15. Bagley, E.B., West, D.C.: Chain entanglement in non-newtonian flow. J. Appl. Phys. 29, 1511–1512 (1958). (10.1063/1.1722979) / J. Appl. Phys. by E.B. Bagley (1958)
  16. Porter, R.S., Johnson, J.F.: The entanglement concept in polymer systems. Chem. Rev. 66, 1–27 (1966). (10.1021/cr60239a001) / Chem. Rev. by R.S. Porter (1966)
  17. Ferry, J.D.: Viscoelastic properties of polymers, 2nd ed. New York: Wiley 1970. / Viscoelastic properties of polymers by J.D. Ferry (1970)
  18. Berry, G.C., Fox, T.G.: The viscosity of polymers and their concentrated solutions. Adv. Polymer Sci. 5, 261–357 (1968). (10.1007/BFb0050985) / Adv. Polymer Sci. by G.C. Berry (1968)
  19. Dusek, K., Prins, W.: Structure and elasticity of non-crystalline polymer networks. Advan. Polymer Sci. 6, 1–102 (1969). / Advan. Polymer Sci. by K. Dusek (1969)
  20. Janeschitz-Kriegl, H.: Flow birefringence of elastico-viscous polymer systems. Advan. Polymer Sci. 6, 170–318 (1969). (10.1007/BFb0051073) / Advan. Polymer Sci. by H. Janeschitz-Kriegl (1969)
  21. Berry, G.C., Casassa, E.F.: Thermodynamic and hydrodynamic behavior of dilute polymer solutions. J. Polymer Sci. Pt. D: Macromol. Rev. 4, 1–66 (1970). / J. Polymer Sci. Pt. D: Macromol. Rev. by G.C. Berry (1970)
  22. Fixman, M., Stockmayer, W.H.: Polymer conformation and dynamics in solution. Ann. Rev. Phys. Chem. 21, 407–428 (1970). (10.1146/annurev.pc.21.100170.002203) / Ann. Rev. Phys. Chem. by M. Fixman (1970)
  23. Orofino, T.A.: Dilution-solution properties of polystyrene in ϑ-solvent media. II. An analysis of environmental effects. J. Chem. Phys. 45, 4310–4315 (1966). (10.1063/1.1727490) / J. Chem. Phys. by T.A. Orofino (1966)
  24. Flory, P.J.: Statistical mechanics of chain molecules. New York: Wiley-Interscience 1969. / Statistical mechanics of chain molecules by P.J. Flory (1969)
  25. Fixman, M., Peterson, J.M.: Dimensions of polymer molecules in concentrated solutions. J. Am. Chem. Soc. 86, 3524–3529 (1964). (10.1021/ja01071a026) / J. Am. Chem. Soc. by M. Fixman (1964)
  26. Yamakawa, H.: Modern theory of polymer solutions, pp. 214–215. New York: Harper and Row 1971. / Modern theory of polymer solutions by H. Yamakawa (1971)
  27. Bluestone, S., Vold, M.J.: Monte-Carlo calculations of the dimensions of coiling type polymers in solutions of finite concentration. J. Polymer Sci. Pt. A 2, 289–301 (1964). / J. Polymer Sci. Pt. by S. Bluestone (1964)
  28. Curro, J.G.: Computer simulation of semi-dilute polymeric systems. Paper presented at 1973 March Meeting of the American Physical Society, San Diego.
  29. Flory, P.J.: Principles of polymer chemistry. Ithaca: Cornell University Press, 1953. / Principles of polymer chemistry by P.J. Flory (1953)
  30. Krigbaum, W.R., Godwin, R.W.: Direct measurement of molecular dimensions in bulk polymers. J. Chem. Phys. 43, 4523–4524 (1965). (10.1063/1.1696728) / J. Chem. Phys. by W.R. Krigbaum (1965)
  31. Cotton, J.P., Farnoux, G., Jannink, G., Mons, J., Picot, C.: Observation de la conformation de la chaine polymerique dans la solide amorphe par diffusion de neutrons aux petits angles. Compt. Rend. Ser. C. 275, 175–179 (1972). / Compt. Rend. Ser. C. by J.P. Cotton (1972)
  32. Ballard, D.G.H., Wignall, G.D., Schelten, J.: Measurement of molecular dimensions of polystyrene chains in the bulk polymer by low angle neutron scattering. European Polymer J. 9, 965–969 (1973). (10.1016/0014-3057(73)90059-1) / European Polymer J. by D.G.H. Ballard (1973)
  33. Kirste, R.G., Kruse, W.A., Schelten, J.: Die Bestimmung des Trägheitsradius von Polymethyl-methacrylat im Glaszustand durch Neutronenbeugung. Makromol. Chem. 162, 299–303 (1972). (10.1002/macp.1972.021620128) / Makromol. Chem. by R.G. Kirste (1972)
  34. Schelten, J., Kruse, W.A., Kirste, R.G.: Über die Gestalt von Polymethylmethacrylat im Glaszustand. Kolloid-Z. u. Z. Polymere 251, 919–921 (1973); see also J. Appl. Crystallography 7, 1988 (1974) and Polymer (London) (in press) by the same authors. (10.1007/BF01498920) / Kolloid-Z. u. Z. Polymere by J. Schelten (1973)
  35. Bueche, F., Cashin, W.M., Debye, P.: The measurement of self-diffusion in solid polymers. J. Chem. Phys. 20, 1956–1958 (1952). (10.1063/1.1700348) / J. Chem. Phys. by F. Bueche (1952)
  36. Brandrup, J., Immergut, E.H. (Eds.): Polymer handbook. New York: Interscience 1966. / Polymer handbook (1966)
  37. Bueche, F., Kinzig, B.J., Coven, C.J.: Polymer Chain Conformations in Bulk Polymers. Polymer Letters 3, 399–402 (1965). (10.1002/pol.1965.110030511) / Polymer Letters by F. Bueche (1965)
  38. Smith, T.L., Frederick, J.E.: Ultimate tensile properties of elastomers. IV. Dependence of the failure envelope, maximum extensibility, and equilibrium stress-strain curve on network characteristics. J. Appl. Phys. 36, 2996–3005 (1965). (10.1063/1.1702916) / J. Appl. Phys. by T.L. Smith (1965)
  39. Hoffman, M.: Zur Konformation von Molekülen in unverdünnten nichtkristallinen Polymeren. Makromol. Chem. 144, 309–321 (1971). (10.1002/macp.1971.021440123) / Makromol. Chem. by M. Hoffman (1971)
  40. Maron, S.H., Nakajima, N., Krieger, I.M.: Study of entanglement of polymers in solution by viscosity measurements. J. Polymer Sci. 37, 1–18 (1959). (10.1002/pol.1959.1203713101) / J. Polymer Sci. by S.H. Maron (1959)
  41. Maron, S.H.: A theory of the thermodynamic behavior of non-electrolyte solutions. J. Polymer Sci. 38, 329–342 (1959). (10.1002/pol.1959.1203813405) / J. Polymer Sci. by S.H. Maron (1959)
  42. Maron, S.H., Nakajima, N.: A theory of the thermodynamic behavior of non electrolyte solutions. II. Application to the system benzene-rubber. J. Polymer Sci. 40, 59–71 (1959). (10.1002/pol.1959.1204013604) / J. Polymer Sci. by S.H. Maron (1959)
  43. Maron, S.H., Nakajima, N.: A theory of the thermodynamic behavior of nonelectrolyte solutions. III. The osmotic pressure of polymer solutions. J. Polymer Sci. 42, 327–340 (1966). (10.1002/pol.1960.1204214004) / J. Polymer Sci. by S.H. Maron (1966)
  44. Maron, S.H., Nakajima, N.: A theory of the thermodynamic behavior of nonelectrolyte solutions. V. The scattering of light by polymer solutions. J. Polymer Sci. 47, 157–168 (1960). (10.1002/pol.1960.1204714914) / J. Polymer Sci. by S.H. Maron (1960)
  45. Aharoni, S.M.: Segmental density distribution of linear amorphous polymer molecules. J. Macromol. Sci.-Phys. B7, 73–103 (1973). (10.1080/00222347308212575) / J. Macromol. Sci.-Phys. by S.M. Aharoni (1973)
  46. Vollmert, B., Stutz, H.: Zur Strktur von konzentrierten Polymerlösungen und Gelen. Angew. Makromol. Chem. 20, 71–101 (1971). A description in English of these and later results by the same workers can be found on pp. 548–561 of Vollmert, B.: Polymer chemistry. Berlin-Heidelberg-New York: Springer 1973. (10.1002/apmc.1971.050200107) / Angew. Makromol. Chem. by B. Vollmert (1971)
  47. Duportail, G., Froelich, D., Weill, G.: Fluorescence quenching as a tool in the study of the distribution of local concentrations in polymer solutions. I. Polymers bearing quenching side groups. European Polymer J. 7, 977–987 (1971). (10.1016/0014-3057(71)90060-7) / European Polymer J. by G. Duportail (1971)
  48. Alberino, L.M., Graessley, W.W.: Cross-linking of polystyrene by high-energy radiation. II. Molecular weight changes in the pre-gel region. J. Phys. Chem. 72, 4229–4235 (1968). (10.1021/j100858a048) / J. Phys. Chem. by L.M. Alberino (1968)
  49. Budzol, M., Dole, M.: The radiation chemistry of polyethylene. XI. The molten state. J. Phys. Chem. 75, 1671–1676 (1971). (10.1021/j100906a006) / J. Phys. Chem. by M. Budzol (1971)
  50. Mandelkern, L.: Radiation chemistry of linear polyethylene, Vol. I. pp. 287–334. In: Dole, M. (Ed.): The radiation chemistry of macromolecules. New York: Academic Press 1972. (10.1016/B978-0-12-219801-4.50019-7) / The radiation chemistry of macromolecules by L. Mandelkern (1972)
  51. Flory, P.: Molecular configuration in bulk polymers. Pure Appl. Chem. (in press).
  52. Kargin, V.A.: The role of structural phenomena in the formation of polymer properties. Pure Appl. Chem. 12, 35–61 (1966). (10.1351/pac196612010035) / Pure Appl. Chem. by V.A. Kargin (1966)
  53. Tager, A.A., Dreval, V.E., Lutsky, M.S., Vinogradov, G.V.: Rheological behavior of concentrated polystyrene solutions in good and poor solvents. J. Polymer Sci. Pt. C23, 181–192 (1968). / J. Polymer Sci. Pt. by A.A. Tager (1968)
  54. Tager, A.A., Dreval, V.E.: Non-newtonian viscosity of concentrated polymer solutions. Rheol. Acta 9, 517–524 (1970). (10.1007/BF01985462) / Rheol. Acta by A.A. Tager (1970)
  55. Quadrat, O.: Viscometric properties of the concentrated polymer solutions. II. Dependence of the non-newtonian viscosity on the thermodynamic quality of the solvent and on its viscosity. Collection Czech. Chem. Commun. 37, 3039–3041 (1972). (10.1135/cccc19723039) / Collection Czech. Chem. Commun. by O. Quadrat (1972)
  56. Debye, P., Chu, B., Woermann, D.: Viscosity of Critical Mixtures. J. Polymer Sci. Part A 1, 249–254 (1963). / J. Polymer Sci. Part A by P. Debye (1963)
  57. Ver Strate, G., Philippoff, W.: Phase separation in flowing polymer systems. Paper presented at 1973 March meeting of American Physical Society, San Diego.
  58. Flory, P.J.: Statistical thermodynamics of semi-flexible chain molecules. Proc. Roy. Soc. (London) A234, 60–73 (1956). / Proc. Roy. Soc. by P.J. Flory (1956)
  59. Robertson, R.E.: Polymer order and polymer density. J. Phys. Chem. 69, 1575–1578 (1965). (10.1021/j100889a021) / J. Phys. Chem. by R.E. Robertson (1965)
  60. Yeh, G.S.Y., Geil, P.N.: Crystallization of polyethylene terephthalate from the glassy amorphous state. J. Macromol. Sci. B1, 235–249 (1967). (10.1080/00222346708212777) / J. Macromol. Sci. by G.S.Y. Yeh (1967)
  61. Carr, S.H., Geil, P.H., Baer, E.: The development of spherulites from structural units in glassy poly(bisphenol-A-carbonate). J. Macromol. Sci.-Phys. B2, 13–28 (1968). (10.1080/00222346808212862) / J. Macromol. Sci.-Phys. by S.H. Carr (1968)
  62. Lin, W., Kramer, E.J.: Small-angle X-ray scattering from amorphous polycarbonate. J. Appl. Phys. 44, 4288–4292 (1973). (10.1063/1.1661953) / J. Appl. Phys. by W. Lin (1973)
  63. Yeh, G.S.Y.: Morphology of amorphous polymers. CRC Critical Rev. Macromol. Sci. 1, 173–213 (1972). / CRC Critical Rev. Macromol. Sci. by G.S.Y. Yeh (1972)
  64. Yeh, G.S.Y.: Order in amorphous polystyrenes as revealed by electron diffraction and diffraction microscopy. J. Macromol. Sci.-Phys. B6, 451–464 (1972). (10.1080/00222347208219127) / J. Macromol. Sci.-Phys. by G.S.Y. Yeh (1972)
  65. Yeh, G.S.Y.: A structural model for the amorphus state of polymers: folded-chain fringed micellar grain model. J. Macromol. Sci. Phys. B6, 465–478 (1972). (10.1080/00222347208219128) / J. Macromol. Sci. Phys. by G.S.Y. Yeh (1972)
  66. Hoeve, C.A.J., O'Brien, M.K.: Specific diluent effects on polymer chain dimensions. J. Polymer Sci. Part A 1, 1947–1954 (1963). / J. Polymer Sci. Part A by C.A.J. Hoeve (1963)
  67. Gent, A.N.: Stress-induced birefringence of swollen polymer networks. Macromolecules 2, 262–265 (1969). (10.1021/ma60009a010) / Macromolecules by A.N. Gent (1969)
  68. Tonelli, A.E.: On the existence of local segmental order in undiluted bulk polymers. J. Chem. Phys. 53, 4339–4345 (1970). (10.1063/1.1673943) / J. Chem. Phys. by A.E. Tonelli (1970)
  69. Wellinghoff, S.T., Baer, E.: Crazing in ultra-thin films of atactic polystyrene. Unpublished manuscript.
  70. Berens, A.R., Folt, V.L.: Resin particles as flow units in poly(vinyl chloride) melts. Trans. Soc. Rheol. 11, 95–111 (1967). (10.1122/1.549072) / Trans. Soc. Rheol. by A.R. Berens (1967)
  71. Collins, E.A., Krier, C.A.: Poly(vinyl chloride) melt rheology and flow activation energy. Trans. Soc. Rheol. 11, 225–242 (1967). (10.1122/1.549079) / Trans. Soc. Rheol. by E.A. Collins (1967)
  72. Schreiber, H.P., Rudin, A., Bagley, E.B.: Separation of elastic and viscous effects in polymer melt extrusion. J. Appl. Polymer Sci. 9, 887–892 (1965). (10.1002/app.1965.070090306) / J. Appl. Polymer Sci. by H.P. Schreiber (1965)
  73. Ballman, R.L., Rademacher, L.E., Farnham, W.H.: Visualization of polystyrene melt flow. Presented at 1972 August U.S.-Japan joint seminar on polymer processing and rheology, Knoxville, Tenn. See J. Appl. Polymer Symp. 20 (1973).
  74. Mooney, M., Wolstenholme, W.E.: The rheological unit in raw elastomers. J. Appl. Phys. 25, 1098–1101 (1955). (10.1063/1.1721821) / J. Appl. Phys. by M. Mooney (1955)
  75. Mooney, M.: Theory of the non-newtonian rheology of raw rubbers consisting of supermolecular rheological units. J. Appl. Phys. 27, 691–696 (1956). (10.1063/1.1722467) / J. Appl. Phys. by M. Mooney (1956)
  76. Prichard, J.H., Wissbrun, K.F.: Reversible melt flow rate increase in branched acetal polymers. J. Appl. Polymer Sci. 13, 233–239 (1969). (10.1002/app.1969.070130122) / J. Appl. Polymer Sci. by J.H. Prichard (1969)
  77. Schreiber, H.P., Storey, S.H., Bagley, E.B.: Molecular fractionation in the flow of polymeric fluids. Trans. Soc. Rheol. 10, 275–297 (1966). (10.1122/1.549047) / Trans. Soc. Rheol. by H.P. Schreiber (1966)
  78. Whitlock, L.R., Porter, R.S.: Experimental investigation of the concept of molecular migration within sheared polystyrene. J. Polymer Sci., Pt. A-2 10, 877–886 (1972). (10.1002/pol.1972.110101111) / J. Polymer Sci. by L.R. Whitlock (1972)
  79. Coleman, B.D., Noll, W.: Recent results in the continuum theory of viscoelastic fluids. Ann. N. Y. Acad. Sci. 89, 672–714 (1961). (10.1111/j.1749-6632.1961.tb27586.x) / Ann. N. Y. Acad. Sci. by B.D. Coleman (1961)
  80. Coleman, B.D., Noll, W.: Simple fluids with fading memory, pp. 530–552. In: Proc. of the International Symposium on Second-Order Effects in Elasticity, Plasticity, and Fluid Dynamics, Haifa. New York: Pergamon Press 1962. / Proc. of the International Symposium on Second-Order Effects in Elasticity, Plasticity, and Fluid Dynamics, Haifa by B.D. Coleman (1962)
  81. Lodge, A.S.: Elastic liquids. New York: Academic Press 1964. / Elastic liquids by A.S. Lodge (1964)
  82. Coleman, B.D., Markovitz, H., Noll, W.: Viscometric flows of non-newtonian fluids. Berlin-Heidelberg-New York: Springer 1966. (10.1007/978-3-642-88655-3) / Viscometric flows of non-newtonian fluids by B.D. Coleman (1966)
  83. Coleman, B.D., Noll, W.: Foundations of linear viscoelasticity. Rev. Mod. Phys. 33, 239–249 (1961). (10.1103/RevModPhys.33.239) / Rev. Mod. Phys. by B.D. Coleman (1961)
  84. Gross, B.: Mathematical structure of the theories of viscoelasticity. Paris: Hermann et Cie. 1953. / Mathematical structure of the theories of viscoelasticity by B. Gross (1953)
  85. Tanner, R.I.: A correlation of normal stress data for polydisobutylene solutions. Trans. Soc. Rheol. 17, 365–373 (1973). (10.1122/1.549317) / Trans. Soc. Rheol. by R.I. Tanner (1973)
  86. Coleman, B.D., Markovitz, H.: Normal stress effects in second-order fluids. J. Appl. Phys. 35, 1–9 (1964). (10.1063/1.1713068) / J. Appl. Phys. by B.D. Coleman (1964)
  87. Stratton, R.A., Butcher, A.F.: Experimental determination of the relationships among various measures of fluid elasticity. J. Polymer Sci. Pt. A-2 9, 1703–1717 (1971). (10.1002/pol.1971.160090912) / J. Polymer Sci. Pt. A-2 by R.A. Stratton (1971)
  88. Debye, P., Bueche, A.M.: Intrinsic viscosity, diffusion, and sedimentation rate of polymers in solution. J. Chem. Phys. 16, 573–579 (1948). (10.1063/1.1746948) / J. Chem. Phys. by P. Debye (1948)
  89. Kramers, H.A.: The behavior of macromolecules in inhomogeneous flow. J. Chem. Phys. 14, 415–424 (1946). (10.1063/1.1724163) / J. Chem. Phys. by H.A. Kramers (1946)
  90. Kirkwood, J.G.: Collected works Macromolecules, Auer, P.L. (Ed.). New York: Gordon and Breach 1967. / Collected works Macromolecules by J.G. Kirkwood (1967)
  91. Wang, M.C., Uhlenbeck, G.E.: On the theory of brownian motion. II. Rev. Mod. Phys. 17, 323 (1945). In: Wax,N. (Ed.): Selected papers in noise and stochastic process. New York: Dover Publications. (10.1103/RevModPhys.17.323) / Rev. Mod. Phys. by M.C. Wang (1945)
  92. Boyer, R.F.: The relation of transition temperature to chemical structure in high polymers. Rubber Chem. Tech. 36, 1303–1421 (1963). (10.5254/1.3539649) / Rubber Chem. Tech. by R.F. Boyer (1963)
  93. Clark, M.B., Zimm, B.H.: A linearized chain model for dielectric loss in polymers. ACS Polymer Preprints 12, 116–120 (1971). See also: Tobolsky, A.V., DuPré, D.B.: Macromolecular relaxation in the damped torsional oscillator and statistical segment models. Advan. Polymer Sci. 6, 103–127 (1969). / ACS Polymer Preprints by M.B. Clark (1971)
  94. Iwata, I., Kurata, M.: Brownian motion of lattice-model polymer chains. J. Chem. Phys. 50, 4008–4013 (1969). (10.1063/1.1671660) / J. Chem. Phys. by I. Iwata (1969)
  95. Orwoll, R.A., Stockmayer, W.H.: Stochastic models for chain dynamics. Advan. Chem. Phys. 15, 305–324 (1969). / Advan. Chem. Phys. by R.A. Orwoll (1969)
  96. Massa, D.J., Schrag, J.L., Ferry, J.D.: Dynamic viscoelastic properties of polystyrene in high-viscosity solvents. Extrapolation to infinite dilution and high-frequency behavior. Macromolecules 4, 210–214 (1971). (10.1021/ma60020a015) / Macromolecules by D.J. Massa (1971)
  97. Peterlin, A.: Molecular model of internal viscosity. Rheol. Acta 12, 496–502 (1973). (10.1007/BF01503004) / Rheol. Acta by A. Peterlin (1973)
  98. Bazua, E.R., Williams, M.C.: A molecular formulation of the internal viscosity in polymer dynamics, and stress symmetry. J. Chem. Phys. 59, 2858–2868 (1973). (10.1063/1.1680417) / J. Chem. Phys. by E.R. Bazua (1973)
  99. Helfand, E.: Theory of the kinetics of conformational transitions in polymers. J. Chem. Phys. 54, 4651–4661 (1971). (10.1063/1.1674737) / J. Chem. Phys. by E. Helfand (1971)
  100. Rouse, P.E.: A theory of the linear viscoelastic properties of dilute solutions of coiling polymers. J. Chem. Phys. 21, 1272–1280 (1953). (10.1063/1.1699180) / J. Chem. Phys. by P.E. Rouse (1953)
  101. Bueche, F.: The viscoelastic properties of plastics. J. Chem. Phys. 22, 603–609 (1954). (10.1063/1.1740133) / J. Chem. Phys. by F. Bueche (1954)
  102. Chapter 10, Appendix B of Ref. (27).
  103. Zimm, B.H.: Dynamics of polymer molecules in dilute solution: viscoelasticity, flow birefringence and dielectric loss. J. Chem. Phys. 24, 269–278 (1956). (10.1063/1.1742462) / J. Chem. Phys. by B.H. Zimm (1956)
  104. Lodge, A.S., Wu, Y.-J.: Constitutive equations for polymer solutions derived from the bead/spring model of Rouse and Zimm. Rheol. Acta 10, 539–553 (1971). (10.1007/BF03396404) / Rheol. Acta by A.S. Lodge (1971)
  105. Bird, R.B., Warner, H.R., Jr., Evans, D.C.: Kinetic theory and rheology of dumbbell suspensions with brownian motion. Advan. Polymer Sci. 8, 1–90 (1971). (10.1007/3-540-05483-9_9) / Advan. Polymer Sci. by R.B. Bird (1971)
  106. Curtiss, C.F., Bird, R.B., Hassager, O.: Kinetic theory and rheology of dilute solutions of macromolecules. ACS Polymer Preprints 15, 22–27 (1974). / ACS Polymer Preprints by C.F. Curtiss (1974)
  107. Verdier, P.H., Stockmayer, W.H.: Monte Carlo calculations on the dynamics of polymers in dilute solution. J. Chem. Phys. 36, 227–235 (1962). See also: Verdier, P.H.: Monte Carlo studies of lattice-model polymer chains. I. Correlation functions in the statistical-bead model. J. Chem. Phys. 45, 2118–2121 (1966). (10.1063/1.1732301) / J. Chem. Phys. by P.H. Verdier (1962)
  108. Tschoegl, N.W.: Influence of hydrodynamic interaction on the viscoelastic behavior of dilute polymer solutions in good solvents. J. Chem. Phys. 40, 473–479 (1964). (10.1063/1.1725138) / J. Chem. Phys. by N.W. Tschoegl (1964)
  109. Pyun, C.W., Fixman, M.: Intrinsic viscosity of polymer chains. J. Chem. Phys. 42, 3838–3844 (1965). (10.1063/1.1695848) / J. Chem. Phys. by C.W. Pyun (1965)
  110. Thurston, G.B., Morrison, J.D.: Eigenvalues and the intrinsic viscosity of short gaussian chains. Polymer (London) 10, 421–438 (1969). (10.1016/0032-3861(69)90052-4) / Polymer by G.B. Thurston (1969)
  111. Lodge, A.S., Wu, Y.-J.: Exact relaxation times and dynamic functions for dilute polymer solutions from the bead/spring model of Rouse and Zimm, Report 16. Rheology Research Center, University of Wisconsin (July, 1972). (10.21236/AD0753143)
  112. Williams, M.C.: Normal stresses in polymer solutions with remarks on the Zimm treatment. J. Chem. Phys. 42, 2988–2989 (1965); errata J. Chem. Phys. 43, 4542 (1965). (10.1063/1.1703288) / J. Chem. Phys. by M.C. Williams (1965)
  113. Ferry, J.D., Williams, M.L., Stern, D.M.: Slow relaxation mechanisms in concentrated polymer solutions. J. Phys. Chem. 58, 987–992 (1954). (10.1021/j150521a012) / J. Phys. Chem. by J.D. Ferry (1954)
  114. Verdier, P.H.: Monte Carlo studies of lattice model polymer chains. II. End-to-end length. J. Chem. Phys. 45, 2122–2128 (1966). (10.1063/1.1727897) / J. Chem. Phys. by P.H. Verdier (1966)
  115. Berry, G.C.: Thermodynamic and conformational properties of polystyrene. II. Intrinsic viscosity studies in dilute solutions of linear polystyrenes. J. Chem. Phys. 46, 1338–1352 (1967). (10.1063/1.1840854) / J. Chem. Phys. by G.C. Berry (1967)
  116. Tanaka, H., Sakanishi, A., Kaneko, M., Furiuchi, J.: Dynamic viscoelastic properties of dilute polymer solutions. J. Polymer Sci. Pt. C 15, 317–330 (1966). (10.1002/polc.5070150126) / J. Polymer Sci. Pt. C by H. Tanaka (1966)
  117. Schrag, J.L., Johnson, R.M.: Application of the Birnboim multiple lumped resonator principle to viscoelastic measurements of dilute macromolecular solutions. Rev. Sci. Inst. 42, 224–232 (1971). (10.1063/1.1685051) / Rev. Sci. Inst. by J.L. Schrag (1971)
  118. Johnson, R.M., Schrag, J.L., Ferry, J.D.: Infinite-dilution viscoelastic properties of polystyrene in θ-solvents and good solvents. Polymer J. (Japan) 1, 742–749 (1970). (10.1295/polymj.1.742) / Polymer J. by R.M. Johnson (1970)
  119. Osaki, K., Mitsuda, Y., Johnson, R.M., Schrag, J.L., Ferry, J.D.: Infinite-dilution viscoelastic properties of linear and star-shaped polybutadienes. Macromol. 5, 17–19 (1972). (10.1021/ma60025a004) / Macromol. by K. Osaki (1972)
  120. Osaki, K., Schrag, J.L., Ferry, J.D.: Infinite-dilution viscoelastic properties of poly(α-methylstyrene). Applications of Zimm theory with exact eigenvalues. Macromolecules 5, 144–147 (1972). (10.1021/ma60026a010) / Macromolecules by K. Osaki (1972)
  121. Osaki, K.: A revised version of the integrodifferential equation in the Zimm theory for polymer solution dynamics. Macromolecules 5, 141–144 (1972). (10.1021/ma60026a009) / Macromolecules by K. Osaki (1972)
  122. Osaki, K., Schrag, J.L.: Viscoelastic properties of polymer solutions in high-viscosity solvents and limiting high-frequency behavior. I. Polystyrene and poly(α-methylstyrene). Polymer J. (Japan) 2, 541–549 (1971). (10.1295/polymj.2.541) / Polymer J. by K. Osaki (1971)
  123. Thurston, G.B., Peterlin, A.: Influence of finite numbers of chain segments, hydrodynamic interaction, and internal viscosity on intrinsic birefringence and viscosity of polymer solutions in an oscillating laminar flow field. J. Chem. Phys. 46, 4881–4885 (1967). (10.1063/1.1840651) / J. Chem. Phys. by G.B. Thurston (1967)
  124. Osaki, K.: Viscoelastic properties of dilute polymer solutions. Advan. Polymer Sci. 12, 1–64 (1973). (10.1007/3-540-06431-1_1) / Advan. Polymer Sci. by K. Osaki (1973)
  125. Simha, R., Somcynsky, T.: The viscosity of concentrated spherical suspensions. J. Colloid Sci. 20, 278–281 (1965). (10.1016/0095-8522(65)90017-6) / J. Colloid Sci. by R. Simha (1965)
  126. Batchelor, G.K., Green, J.T.: The determination of the bulk stress in a suspension of spherical particles to order c 2. J. Fluid Mech. 56, 401–427 (1972). (10.1017/S0022112072002435) / J. Fluid Mech. by G.K. Batchelor (1972)
  127. Gandhi, K.S., Williams, M.C.: Solvent effects on the viscosity of moderately concentrated polymer solutions. J. Polymer Sci. Pt. C 35, 211–234 (1971). (10.1002/polc.5070350117) / J. Polymer Sci. Pt. C by K.S. Gandhi (1971)
  128. Frederick, J.E., Tschoegl, N.W., Ferry, J.D.: Dynamic mechanical properties of dilute polystyrene solutions; dependence on molecular weight, concentration, and solvent. J. Phys. Chem. 68, 1974–1982 (1964). (10.1021/j100789a051) / J. Phys. Chem. by J.E. Frederick (1964)
  129. Holmes, L.A., Kusamizu, K., Osaki, K., Ferry, J.D.: Dynamic mechanical properties of moderately concentrated polystyrene solutions. J. Polymer Sci. Pt. A-2 9, 2009–2021 (1971). (10.1002/pol.1971.160091106) / J. Polymer Sci. Pt. A-2 by L.A. Holmes (1971)
  130. Onogi, S., Masuda, T., Kitagawa, K.: Rheological properties of anionic polystyrenes. I. Dynamic viscoelasticity of narrow-distribution polystyrenes. Macromolecules 3, 109–116 (1970). (10.1021/ma60014a001) / Macromolecules by S. Onogi (1970)
  131. Frisch, H.L., Simha, R.: The viscosity of colloidal suspensions and macromolecular solutions, Vol. 1, Chapter 14. In: Eirich, F.R. (Ed.): Rheology. New York: Academic Press 1956. / Rheology by H.L. Frisch (1956)
  132. Simha, R., Zakin, J.L.: Compression of flexible chain molecules in solution. J. Chem. Phys. 33, 1791–1793 (1960). (10.1063/1.1731504) / J. Chem. Phys. by R. Simha (1960)
  133. Onogi, S., Kobayashi, Y., Kojima, Y., Taniguchi, Y.: Non-Newtonian flow of concentrated solutions of high polymers. J. Appl. Polymer Sci. 7, 847–859 (1963). (10.1002/app.1963.070070305) / J. Appl. Polymer Sci. by S. Onogi (1963)
  134. Cornet, C.F.: The determination of unperturbed dimensions of polymer molecules by viscometry of moderately concentrated solutions. Polymer (London) 6, 373–384 (1965). (10.1016/0032-3861(65)90063-7) / Polymer by C.F. Cornet (1965)
  135. Utracki, L., Simha, R.: Corresponding states relations for the viscosity of moderately concentrated polymer solutions. J. Polymer Sci. Pt. A 1, 1089–1098 (1963). / J. Polymer Sci. Pt. by L. Utracki (1963)
  136. Simha, R., Utracki, L. A.: The viscosity of concentrated polymer solutions: corresponding states principles. Rheol. Acta 12, 455–462 (1973). (10.1007/BF01502999) / Rheol. Acta by R. Simha (1973)
  137. Simha, R., Chan, F.S.: Corresponding states relations for the newtonian viscosity of concentrated polymer solutions. Temperature dependence. J. Phys. Chem. 75, 256–267 (1971). (10.1021/j100672a013) / J. Phys. Chem. by R. Simha (1971)
  138. Onogi, S., Kimura, S., Kato, T., Masuda, T., Miyanaga, N.: Effects of molecular weight and concentration on flow properties of concentrated polymer solutions. J. Polymer Sci. Pt. C 15, 381–406 (1966). / J. Polymer Sci. Pt. by S. Onogi (1966)
  139. Onogi, S., Masuda, T., Miyanaga, N., Kimura, Y.: Dependence of viscosity of concentrated polymer solutions upon molecular weight and concentration. J. Polymer Sci. Pt. A-2 5, 899–913 (1967). (10.1002/pol.1967.160050508) / J. Polymer Sci. Pt. A-2 by S. Onogi (1967)
  140. Gandhi, K.S., Williams, M.C.: Effect of solvent character on polymer entanglements. J. Appl. Polymer Sci. 16, 2721–2725 (1972). (10.1002/app.1972.070161025) / J. Appl. Polymer Sci. by K.S. Gandhi (1972)
  141. Dreval, V.Ye., Tager, A.A., Fomina, A.S.: Concentrated solutions of polymers. IV. Viscosity of solutions of polystyrene in various solvents. Polymer Sci. USSR 5, 495–507 (1964) [Vysokomolekul. Soyedin. 5, 1404 (1963). (10.1016/0032-3950(64)90119-4) / Polymer Sci. USSR by V. Dreval (1964)
  142. Ferry, J.D., Foster, E.L., Browning, G.V., Sawyer, W.M.: Viscosities of concentrated polyvinyl acetate solutions in various solvents. J. Colloid Sci. 6, 377–388 (1951). (10.1016/0095-8522(51)90010-4) / J. Colloid Sci. by J.D. Ferry (1951)
  143. Simha, R., Zakin, J.L.: Solution viscosities of linear flexible high polymers. J. Colloid Sci. 17, 270–287 (1962). (10.1016/0095-8522(62)90042-9) / J. Colloid Sci. by R. Simha (1962)
  144. Quadrat, O., Podnecka, J.: Influence of the thermodynamic quality of a solvent upon the viscosity of moderately concentrated polystyrene solutions. Collection Czech. Chem. Commun. 37, 2402–2409 (1972). (10.1135/cccc19722402) / Collection Czech. Chem. Commun. by O. Quadrat (1972)
  145. Johnson, M.F., Evans, W.W., Jordan, I., Ferry, J.D.: Viscosities of concentrated polymer solutions. II. Polyisobutylene. J. Colloid Sci. 7, 498–510 (1952). (10.1016/0095-8522(52)90033-0) / J. Colloid Sci. by M.F. Johnson (1952)
  146. Ferry, J.D., Grandine, L.D., Jr., Udy, D.C.: Viscosities of concentrated polymer solutions. III. Polystyrene and styrene-maleic acid copolymer. J. Colloid Sci. 8, 529–539 (1953). (10.1016/0095-8522(53)90058-0) / J. Colloid Sci. by J.D. Ferry (1953)
  147. Toms, B.A., Strawbridge, D.J.: Elastic and viscous properties of dilute solutions of polymethyl methacrylate in organic liquids. Trans. Faraday Soc. 49, 1225–1232 (1953). (10.1039/tf9534901225) / Trans. Faraday Soc. by B.A. Toms (1953)
  148. Dreval, V.Y2., Malkin, A.Ya., Vinogradov, G.V.: Effect of the solvent nature on the rheological properties of concentrated solutions of various polymers. European Polymer J. 9, 85–99 (1973). (10.1016/0014-3057(73)90071-2) / European Polymer J. by V.Y2. Dreval (1973)
  149. Masuda, T., Toda, N., Aoto, Y., Onogi, S.: Viscoelastic properties of concentrated solutions of poly(methyl methacrylate) in diethyl phthalate. Polymer J. (Japan) 3, 315–321 (1972). (10.1295/polymj.3.315) / Polymer J. by T. Masuda (1972)
  150. Klein, J., Woernle, R.: Zum Einfluß der Polymer-Lösungsmittel-Wechselwirkung auf das Fließverhalten mäßig konzentrierter Polymerlösungen. Kolloid-Z. Z. Polymere 237, 209–219 (1970). (10.1007/BF02086531) / Kolloid-Z. Z. Polymere by J. Klein (1970)
  151. Borchard, W., Pyrlik, M., Rehage, G.: Association phenomena of PMMA in solution and gels. Makromol. Chem. 145, 169–188 (1971). (10.1002/macp.1971.021450115) / Makromol. Chem. by W. Borchard (1971)
  152. Rotne, J., Prager, S.: Variational treatment of hydrodynamic interaction in polymers. J. Chem. Phys. 50, 4831–4837 (1969). (10.1063/1.1670977) / J. Chem. Phys. by J. Rotne (1969)
  153. Masuda, T., Kitagawa, K., Onogi, S.: Viscoelastic properties of poly (methyl methacrylates) prepared by anionic polymerization. Polymer J. (Japan) 1, 418–424 (1970). (10.1295/polymj.1.418) / Polymer J. by T. Masuda (1970)
  154. Onogi, S., Masuda, T., Ibaragi, T.: Rheological properties of polymethyl methacrylate and polyvinyl acetate in the molten state. Kolloid-Z. Z. Polymere 222, 110–124 (1968). (10.1007/BF01510792) / Kolloid-Z. Z. Polymere by S. Onogi (1968)
  155. Ninomiya, K., Ferry, J.D., Oyanagi, Y.: Viscoelastic properties of polyvinyl acetates. II. Creep studies of blends. J. Phys. Chem. 67, 2297–2308 (1963). (10.1021/j100805a012) / J. Phys. Chem. by K. Ninomiya (1963)
  156. Peterlin, A.: Gradient and time dependence of viscosity of polymer solutions in very viscous solvents. J. Lubrication Tech. 90, 571–576 (1968). (10.1115/1.3601620) / J. Lubrication Tech. by A. Peterlin (1968)
  157. Lodge, A.S.: Rheological properties of concentrated polymer solutions. I. Growth of pressure fluctuations during prolonged shear flow. Polymer (London) 2, 195–201 (1961). (10.1016/0032-3861(61)90022-2) / Polymer by A.S. Lodge (1961)
  158. Philippoff, W.: Studies of flow birefringence of polystyrene solutions. Trans. Soc. Rheol. 7, 45–59 (1963). (10.1122/1.548944) / Trans. Soc. Rheol. by W. Philippoff (1963)
  159. Osaki, K., Einaga, Y.: Viscoelastic properties of concentrated polymer solutions. Prog. Polymer Sci. Japan 1, 321–375 (1971). / Prog. Polymer Sci. Japan by K. Osaki (1971)
  160. Odani, H., Nemoto, N., Kurata, M.: The viscoelastic properties of undiluted linear polymers of narrow molecular weight distribution in the terminal zone. Bull. Inst. Chem. Res., Kyoto U. 50, 117–133 (1972). / Bull. Inst. Chem. Res., Kyoto U. by H. Odani (1972)
  161. Allen, V.R., Fox, T.G.: Viscosity-molecular weight dependence for short chain polystyrenes. J. Chem. Phys. 41, 337–343 (1964). (10.1063/1.1725871) / J. Chem. Phys. by V.R. Allen (1964)
  162. Graessley, W.W., Hazleton, R.L., Lindeman, L.R.: The shear-rate dependence of viscosity in concentrated solutions of narrow-distribution polystyrene. Trans. Soc. Rheol. 11, 267–285 (1967). (10.1122/1.549089) / Trans. Soc. Rheol. by W.W. Graessley (1967)
  163. Gupta, D., Forsman, W.C.: Newtonian viscosity-molecular weight relationship for concentrated solutions of monodisperse polystyrene. Macromolecules 2, 304–306 (1969). (10.1021/ma60009a020) / Macromolecules by D. Gupta (1969)
  164. Berry, G.C.: The viscosity of polymer-diluent mixtures. J. Phys. Chem. 70, 1194–1198 (1966). (10.1021/j100876a037) / J. Phys. Chem. by G.C. Berry (1966)
  165. Fetters, L.J.: Determination of the intermolecular entanglement coupling spacings in polyisoprene by viscosity measurements. J. Res. Natl. Bur. Std. 69A, 33–37 (1965). (10.6028/jres.069A.006) / J. Res. Natl. Bur. Std. by L.J. Fetters (1965)
  166. Schurz, J., Hochberger, H.: Untersuchungen über den Lösungszustand von mäßig konzentrierten Polyisobutylen-Lösungen. Makromol. Chem. 96, 141–149 (1966). (10.1002/macp.1966.020960111) / Makromol. Chem. by J. Schurz (1966)
  167. Cross, M.M.: Viscosity, molecular weight, and chain entanglement. Polymer (London) 11, 238–244 (1970). (10.1016/0032-3861(70)90034-0) / Polymer by M.M. Cross (1970)
  168. Fujimoto, T., Ozaki, N., Nagasawa, M.: Stress relaxation of monodisperse poly-α-methylstyrene. J. Polymer Sci. Pt. A-2 6, 129–140 (1968). (10.1002/pol.1968.160060106) / J. Polymer Sci. Pt. A-2 by T. Fujimoto (1968)
  169. Tobolsky, A.V.: Properties and structure of polymers. New York: Wiley 1960. / Properties and structure of polymers by A.V. Tobolsky (1960)
  170. Plazek, D.J., O'Rourke, V.M.: Viscoelastic behavior of low molecular weight polystyrene. J. Polymer Sci. Pt. A-2 9, 209–243 (1971). (10.1002/pol.1971.160090202) / J. Polymer Sci. Pt. A-2 by D.J. Plazek (1971)
  171. Barlow, A.J., Day, M., Harrison, G., Lamb, J., Subramanian, S.: Viscoelastic relaxation in a series of polyethylacrylates and poly-n-butylacrylates. Proc. Roy. Soc. A 309, 497–525 (1969). (10.1098/rspa.1969.0054) / Proc. Roy. Soc. by A.J. Barlow (1969)
  172. Knoff, W.F., Hopkins, I.L., Tobolsky, A.V.: Studies on the stress relaxation of polystyrenes in the rubbery flow region. II. Macromolecules 4, 750–754 (1971). (10.1021/ma60024a016) / Macromolecules by W.F. Knoff (1971)
  173. Nemoto, N., Moriwaki, M., Odani, H., Kurata, M.: Shear creep studies of narrow-distribution poly(cis-isoprene). Macromolecules 4, 215–219 (1971). (10.1021/ma60020a016) / Macromolecules by N. Nemoto (1971)
  174. Nemoto, N., Ogawa, T., Odani, H., Kurata, M.: Shear creep studies of narrow-distribution poly(cis-isoprene). III. Concentrated solutions. Macromolecules 5, 641–644 (1972). (10.1021/ma60029a021) / Macromolecules by N. Nemoto (1972)
  175. Oser, H., Marvin, R.S.: Effect of molecular weight on viscoelastic properties of polymers as predicted by a molecular theory. J. Res. Natl. Bur. Std. 67B, 87–90 (1963). / J. Res. Natl. Bur. Std. by H. Oser (1963)
  176. Andrews, R.D., Tobolsky, A.V.: Elastoviscous properties of polyisobutylene. IV. Relaxation time spectrum and calculation of bulk viscosity. J. Polymer Sci. 7, 221–242 (1951). (10.1002/pol.1951.120070210) / J. Polymer Sci. by R.D. Andrews (1951)
  177. De Witt, T.W., Markovitz, H., Padden, F.J., Jr., Zapas, L.J.: Concentration dependence of the rheological behavior of the polyisobutylene—decalin system. J. Colloid. Sci. 10, 174–188 (1955). / J. Colloid. Sci. by T.W. Witt De (1955)
  178. Tobolsky, A.V., Aklonis, J.J., Akovali, G.: Viscoelastic properties of monodisperse polystyrene. J. Chem. Phys. 42, 723–728 (1965). (10.1063/1.1695997) / J. Chem. Phys. by A.V. Tobolsky (1965)
  179. Kotaka, T., Kurata, M., Tamura, M.: Non-Newtonian flow and normal stress phenomena in solutions of polystyrene in toluene. Rheol. Acta 2, 179–186 (1962). (10.1007/BF01972546) / Rheol. Acta by T. Kotaka (1962)
  180. Kotaka, T., Osaki, K.: Normal stresses, non-Newtonian flow, and dynamic mechanical behavior of polymer solutions. J. Polymer Sci. Pt. C 15, 453–479 (1966). / J. Polymer Sci. Pt. by T. Kotaka (1966)
  181. Tung, L.H., Runyon, J.R.: Molecular weight distribution of standard polystyrene samples by GPC and by sedimentation velocity analysis. J. Appl. Polymer Sci. 17, 1589–1596 (1973). (10.1002/app.1973.070170521) / J. Appl. Polymer Sci. by L.H. Tung (1973)
  182. Holmes, L.A., Ferry, J.D.: Dependence of the steady-state compliance on concentration and molecular weight in polymer solutions. J. Polymer Sci. Pt. C 23, 291–299 (1968). / J. Polymer Sci. Pt. by L.A. Holmes (1968)
  183. Kusamizu, S., Holmes, L.A., Moore, A.A., Ferry, J.D.: The steady-state compliance of polymer solutions. Trans, Soc. Rheol. 12, 559–571 (1968). (10.1122/1.549124) / Trans, Soc. Rheol. by S. Kusamizu (1968)
  184. Ashare, E.: Rheological properties of monodisperse polystyrene solutions, Ph.D. Thesis, University of Wisconsin (1968). Trans. Soc. Rheol. 12, 535–557 (1968). (10.1122/1.549095) / Trans. Soc. Rheol. by E. Ashare (1968)
  185. Graessley, W.W., Segal, L.: Flow behavior of polystyrene systems in steady shearing flow. Macromolecules 2, 49–57 (1969). (10.1021/ma60007a010) / Macromolecules by W.W. Graessley (1969)
  186. Daum, U.: (Private communication), see Ref. (190). (10.1002/pol.1969.110070609) / Polymer Letters by U. Daum (1969)
  187. Wales, J.L.S.: (Private communication), see Ref. (190). (10.1002/pol.1969.110070609) / Polymer Letters by J.L.S. Wales (1969)
  188. Prest, W.M., Jr.: Viscoelastic properties of blends of entangled polymers, J. Polymer Sci: Pt. A-2 8, 1897–1908 (1970). / J. Polymer Sci: Pt. A-2 by W.M. Prest Jr. (1970)
  189. Einaga, Y., Osaki, K., Kurata, M., Tamura, M.: Creep behavior of polymer solutions. II. Steady-shear compliance of concentrated polystyrene solutions. Macromolecules 4, 87–92 (1971). (10.1021/ma60019a019) / Macromolecules by Y. Einaga (1971)
  190. Tschoegl, N.W.: Stress relaxation and creep in dilute polymer solutions. J. Chem. Phys. 44, 2331–2334 (1966). (10.1063/1.1727044) / J. Chem. Phys. by N.W. Tschoegl (1966)
  191. Akers, L.C., Williams, M.C.: Oscillatory normal stresses in dilute polymer solutions. J. Chem. Phys. 51, 3834–3841 (1969). (10.1063/1.1672599) / J. Chem. Phys. by L.C. Akers (1969)
  192. Stratton, R.A., Butcher, A.F.: Experimental determination of the relationships among various measures of fluid elasticity. J. Polymer Sci.: Pt A-2 9, 1703–1717 (1971). / J. Polymer Sci.: Pt A-2 by R.A. Stratton (1971)
  193. Osaki, K., Einaga, Y., Kurata, M., Tamura, M.: Creep behavior of polymer solutions. I. A new kind of apparatus for creep and creep recovery. Macromolecules 4, 82–87 (1971). (10.1021/ma60019a018) / Macromolecules by K. Osaki (1971)
  194. Sakai, M., Fujimoto, T., Nagasawa, M.: Steady flow properties of monodisperse polymer solutions. Molecular weight and polymer concentration dependences of steady shear compliances at zero and finite shear rates. Macromolecules 5, 786–792 (1972). (10.1021/ma60030a023) / Macromolecules by M. Sakai (1972)
  195. Akovali, G.: Viscoelastic properties of polystyrene. J. Polymer Sci. Pt. A-2 5, 875–889 (1967). (10.1002/pol.1967.160050506) / J. Polymer Sci. Pt. A-2 by G. Akovali (1967)
  196. Mieras, H.J.M.A., van Rijn, C.F.H.: Elastic behavior of some polymer melts. Nature 218, 865–866 (1968). (10.1038/218865b0) / Nature by H.J.M.A. Mieras (1968)
  197. Daum, U., Wales, J.L.S.: Critical concentrations in polystyrene solutions. Polymer Letters 7, 459–462 (1969). (10.1002/pol.1969.110070609) / Polymer Letters by U. Daum (1969)
  198. Nemoto, N.: Viscoelastic properties of narrow-distribution polymers. II. Tensile creep studies of polystyrene. Polymer J. (Japan) 1, 485–492 (1970). (10.1295/polymj.1.485) / Polymer J. by N. Nemoto (1970)
  199. Mills, N.J., Nevin, A.: Oscillatory shear measurements on polystyrene melts in the terminal region. J. Polymer Sci. Pt. A-2 9, 267–281 (1971). (10.1002/pol.1971.160090204) / J. Polymer Sci. Pt. A-2 by N.J. Mills (1971)
  200. Crawley, R.: Unpublished results in M.S. thesis. Northwestern University, 1973.
  201. Zosel, A.: Der Einfluß von Molekulargewicht und Moleculargewichtsverteilung auf die viskoelastischen Eigenschaften von Polystyrolschmelzen. Rheol. Acta 10, 215–224 (1971). (10.1007/BF02040445) / Rheol. Acta by A. Zosel (1971)
  202. Uy, W.C., Graessley, W.W.: Viscosity and normal stresses in poly(vinyl acetate) systems. Macromolecules 4, 458–463 (1971). (10.1021/ma60022a019) / Macromolecules by W.C. Uy (1971)
  203. Nemoto, N., Odani, H., Kurata, M.: Shear creep studies of narrow distribution poly(cisisoprene). II. Extension to low molecular weights. Macromolecules 5, 531–535 (1972). (10.1021/ma60028a033) / Macromolecules by N. Nemoto (1972)
  204. Vinogradov, G.V., Malkin, A.Ya., Yanovskii, Yu.G., Borisenkova, E.K., Yarlykov, B.V., Berezhnaya, G.V.: Viscoelastic properties and flow of narrow distribution polybutadienes and polyisoprenes. J. Polymer Sci. Pt. A-2 10, 1061–1084 (1972). (10.1002/pol.1972.160100609) / J. Polymer Sci. Pt. A-2 by G.V. Vinogradov (1972)
  205. Endo, H., Fujimoto, T., Nagasawa, M.: Normal stress and shear stress in a viscoelastic liquid under steady state flow: Effect of molecular weight heterogeneity. J. Polymer Sci. Pt. A-2 9, 345–362 (1971). (10.1002/pol.1971.160090209) / J. Polymer Sci. Pt. A-2 by H. Endo (1971)
  206. Sakai, M., Fujimoto, T., Nagasawa, M.: Steady flow properties of monodisperse polymer solutions. Molecular weight and polymer concentration dependences of steady shear compliances at zero and finite shear rates. Macromolecules 5, 786–792 (1972). (10.1021/ma60030a023) / Macromolecules by M. Sakai (1972)
  207. Odani, H., Nemoto, N., Kitamura, S., Kurata, M.: Viscoelastic properties of monodisperse polymers. I. Tensile creep studies of poly(α-methylstyrene). Polymer J. (Japan) 1, 356–364 (1970). (10.1295/polymj.1.356) / Polymer J. by H. Odani (1970)
  208. Osaki, K., Sakato, K., Fukatsu, M., Kurata, M., Matusita, K., Tamura, M.: Normal stress effect in dilute polymer solutions. III. Monodisperse poly-α-methylstyrene in chlorinated biphenyl. J. Phys. Chem. 74, 1752–1756 (1970). (10.1021/j100703a016) / J. Phys. Chem. by K. Osaki (1970)
  209. Valentine, R.H.: Viscoelastic properties of linear and cross-linked polybutadienes. Ph. D. thesis, University of Wisconsin, 1967.
  210. Kraus, G.: Private communication.
  211. Mills, N.J.: The rheological properties and molecular weight distribution of polydimethylsiloxane. European Polymer J. 5, 675–695 (1969). (10.1016/0014-3057(69)90130-X) / European Polymer J. by N.J. Mills (1969)
  212. Ninomiya, K., Ferry, J.D.: Viscoelastic properties of polyvinyl acetates. I. Creep studies of fractions. J. Phys. Chem. 76, 2292–2296 (1963). (10.1021/j100805a011) / J. Phys. Chem. by K. Ninomiya (1963)
  213. Oyanagi, Y., Ferry, J.D.: Viscoelastic properties of polyvinyl acetates. IV. Creep studies of plasticized fractions. J. Colloid Sci. 21, 547–559 (1966). (10.1016/0095-8522(66)90052-3) / J. Colloid Sci. by Y. Oyanagi (1966)
  214. Mieras, H.J.M.A.: Elastic or normal-stress behavior of monodisperse polystyrene melts or solutions. Paper presented at the conference Advances in Rheology, Glasgow, September 1969.
  215. Prest, W.M., Jr., Porter, R.S., O'Reilly, M.M.: Non-Newtonian flow and the steady-state shear compliance. J. Appl. Polymer Sci. 14, 2697–2706 (1970). (10.1002/app.1970.070141104) / J. Appl. Polymer Sci. by W.M. Prest Jr. (1970)
  216. Masuda, T., Kitagawa, K., Inoue, T., Onogi, S.: Rheological properties of anionic polystyrenes. II. Dynamic viscoelasticity of blends of narrow-distribution polystyrenes. Macromolecules 3, 116–125 (1970). (10.1021/ma60014a002) / Macromolecules by T. Masuda (1970)
  217. Saeda, S., Yotsuyanagi, J., Yamaguchi, K.: Relation between melt flow properties and molecular weight in polyethylene. J. Appl. Polymer Sci. 15, 277–297 (1971). (10.1002/app.1971.070150203) / J. Appl. Polymer Sci. by S. Saeda (1971)
  218. Locati, G., Gargani, L.: Dependence of zero-shear viscosity on molecular weight distribution. J. Polymer Sci., Polymer Letters 11, 95–101 (1973). (10.1002/pol.1973.130110204) / J. Polymer Sci., Polymer Letters by G. Locati (1973)
  219. Pennline, H.W., Graessley, W.W.: Flow properties of polymethyl methacrylate solutions. Paper presented at American Physical Society Meeting, San Diego, March 1973.
  220. Graessley, W.W.: Linear viscoelasticity in entangling polymer systems. J. Chem. Phys. 54, 5143–5157 (1971). (10.1063/1.1674809) / J. Chem. Phys. by W.W. Graessley (1971)
  221. Leaderman, H., Smith, R.G., Williams, L.C.: Rheology of polyisobutylene. III. Elastic recovery, non-Newtonian flow, and molecular weight distribution. J. Polymer Sci. 36, 233–257 (1959). (10.1002/pol.1959.1203613019) / J. Polymer Sci. by H. Leaderman (1959)
  222. Ninomiya, K., Ferry, J.D.: Phenomenological relation for viscoelastic properties of polymer diluent systems; the relative dissipation index N21. J. Macromol. Sci.-Phys. B 3, 237–258 (1969). (10.1080/00222346908205092) / J. Macromol. Sci.-Phys. by K. Ninomiya (1969)
  223. Bogue, D.C., Masuda, T., Einaga, Y., Onogi, S.: A constitutive model for molecular weight and concentration effects in polymer blends. Polymer J. (Japan) 1, 563–572 (1970). (10.1295/polymj.1.563) / Polymer J. by D.C. Bogue (1970)
  224. Chikahisa, Y.: A theory on the relationship between viscosity and molecular weight in bulk polymers. J. Phys. Soc. Japan 19, 92–100 (1964). (10.1143/JPSJ.19.92) / J. Phys. Soc. Japan by Y. Chikahisa (1964)
  225. Williams, M.C.: Stresses in concentrated polymer solutions. Part I. Shear dependence of viscosity. A.I.Ch.E. J. 12, 1064–1070 (1966). (10.1002/aic.690120606) / A.I.Ch.E. J. by M.C. Williams (1966)
  226. Williams, M.C.: Concentrated polymer solutions. Part II. Dependence of viscosity and relaxation time on concentration and molecular weight. A.I.Ch.E. J. 13, 534–539 (1967). (10.1002/aic.690130324) / A.I.Ch.E. J. by M.C. Williams (1967)
  227. Williams, M.C.: Concentrated polymer solutions. Part III. Normal stresses in simple shear flow. A.I.Ch.E. J. 13, 955–961 (1967). (10.1002/aic.690130524) / A.I.Ch.E. J. by M.C. Williams (1967)
  228. Fixman, M.: Dynamics of polymer chains. J. Chem. Phys. 42, 3831–3837 (1965). (10.1063/1.1695847) / J. Chem. Phys. by M. Fixman (1965)
  229. Middleman, S.: The flow of high polymers. New York: Interscience 1968. / The flow of high polymers by S. Middleman (1968)
  230. Lodge, A.S.: Constitutive equations from molecular network theories for polymer solutions. Rheol. Acta 7, 379–392 (1968). (10.1007/BF01984856) / Rheol. Acta by A.S. Lodge (1968)
  231. Flory, P.J.: Elasticity of polymer networks cross-linked in state of strain. Trans. Faraday Soc. 56, 722–743 (1960). (10.1039/tf9605600722) / Trans. Faraday Soc. by P.J. Flory (1960)
  232. Bueche, F.: Viscosity of polymers in concentrated solution, J. Chem. Phys. 25, 599–600 (1956). See also: Bueche, F.: Viscosity of molten branched polymers and their concentrated solutions. J. Chem. Phys. 40, 484–487 (1964). (10.1063/1.1742998) / J. Chem. Phys. by F. Bueche (1956)
  233. De Gennes, P.G.: Reptation of a polymer chain in the presence of fixed obstacles. J. Chem. Phys. 55, 572–579 (1971). (10.1063/1.1675789) / J. Chem. Phys. by P.G. Gennes De (1971)
  234. Eyring, H., Ree, T., Hirai, N.: The viscosity of high polymers — Random walk of a group of connected segments. Proc. Natl. Acad. Sci. 44, 1213–1217 (1959). (10.1073/pnas.44.12.1213) / Proc. Natl. Acad. Sci. by H. Eyring (1959)
  235. Graessley, W.W.: Viscosity of entangling polydisperse polymers. J. Chem. Phys. 47, 1942–1953 (1967). (10.1063/1.1712222) / J. Chem. Phys. by W.W. Graessley (1967)
  236. Aharoni, S.M.: On some rheological phenomena of amorphous polymers. J. Appl. Polymer Sci. 17, 1507–1518 (1973). (10.1002/app.1973.070170516) / J. Appl. Polymer Sci. by S.M. Aharoni (1973)
  237. Ziabicki, A., Takserman-Krozer, R.: General dynamic theory of macromolecular networks. I. Definitions and classification. J. Polymer Sci. Part A-2 7, 2005–2018 (1969). (10.1002/pol.1969.160071203) / J. Polymer Sci. Part A-2 by A. Ziabicki (1969)
  238. Takserman-Krozer, R., Ziabicki, A.: General dynamic theory of macromolecular networks. II. Dynamics of network deformation. J. Polymer Sci. Part A-2 8, 321–332 (1970). (10.1002/pol.1970.160080301) / J. Polymer Sci. Part A-2 by R. Takserman-Krozer (1970)
  239. Ziabicki, A.: Molecular rheology of polymer systems. Pure Appl. Chem. 26, 481–497 (1971). (10.1351/pac197126030481) / Pure Appl. Chem. by A. Ziabicki (1971)
  240. Chömpff, A.J., Duiser, J.A.: Viscoelasticity in networks consisting of crosslinked or entangled macromolecules. I. Normal modes and mechanical spectra. J. Chem. Phys. 45, 1505–1514 (1966). (10.1063/1.1727793) / J. Chem. Phys. by A.J. Chömpff (1966)
  241. Duiser, J.A., Staverman, A.J.: On the theory of rubber elasticity. In: Prins, J.A. (Ed.): Physics of non-crystalline solids, pp. 376–387. Amsterdam: North Holland Publ. 1965. / Physics of non-crystalline solids by J.A. Duiser (1965)
  242. Chömpff, A.J.: Normal modes of branched polymers. I. Simple ring and star-shaped molecules. J. Chem. Phys. 53, 1566–1576 (1970). (10.1063/1.1674214) / J. Chem. Phys. by A.J. Chömpff (1970)
  243. Chömpff, A.J., Prins, W.: Viscoelasticity of networks consisting of crosslinked or entangled macromolecules. II. Verification of the theory for entanglement networks. J. Chem. Phys. 48, 235–243 (1968). (10.1063/1.1667909) / J. Chem. Phys. by A.J. Chömpff (1968)
  244. Edwards, S.F., Grant, J.W.V.: Effect of entanglement on diffusion in a polymer melt. J. Phys. A: Math. Nucl. Gen. 6, 1169–1185 (1973). (10.1088/0305-4470/6/8/012) / J. Phys. A: Math. Nucl. Gen. by S.F. Edwards (1973)
  245. Edwards, S.F., Grant, J.W.V.: The effect of entanglement on the viscosity of a polymer melt. J. Phys. A, Math. Nucl. Gen. 6, 1186–1195 (1973). (10.1088/0305-4470/6/8/013) / J. Phys. A, Math. Nucl. Gen. by S.F. Edwards (1973)
  246. Forsman, W.C., Grand, H.S.: Theory of entanglement effects in linear viscoelastic behavior of polymer solutions and melts. I. Symmetry considerations. Macromolecules 5, 289–293 (1972). (10.1021/ma60027a012) / Macromolecules by W.C. Forsman (1972)
  247. Wolkowicz, R.I., Forsman, W.C.: Entanglement in concentrated solutions of polystyrene with narrow distributions of molecular weight. Macromolecules 4, 184–192 (1971). (10.1021/ma60020a010) / Macromolecules by R.I. Wolkowicz (1971)
  248. Thirion, P.: Empirical extension of the molecular theory of Rouse to the viscoelasticity of bulk polymers. J. Polymer Sci., Polymer Letters Ed. 11, 673–678 (1973). (10.1002/pol.1973.130111102) / J. Polymer Sci., Polymer Letters Ed. by P. Thirion (1973)
  249. Hoffman, M.: Das Grundgesetz für die mechanische Relaxation und das Fließen unvernetzter Fadenmoleküle. Rheol. Acta 6, 92–100 (1967). (10.1007/BF01968388) / Rheol. Acta by M. Hoffman (1967)
  250. Graessley, W.W.: Unpublished calculations.
  251. Vinogradov, G.V., Pokrovsky, V.H., Yanovsky, Yu.G.: Theory of viscoelastic behavior of linear polymers in unimolecular approximation and its experimental verification. Rheol. Acta 11, 258–274 (1972). (10.1007/BF01974769) / Rheol. Acta by G.V. Vinogradov (1972)
  252. Hayashi, S.: Theory of viscoelasticity in temporarily crosslinked polymers. IV. Relaxation spectrum and molecular weight dependence of viscosity. J. Phys. Soc. Japan 19, 2306–2312 (1964). (10.1143/JPSJ.19.2306) / J. Phys. Soc. Japan by S. Hayashi (1964)
  253. Hayashi, S.: Concentration dependence of rheological properties in concentrated polymer solutions. In: Onogi, S. (Ed.): Proceedings of the Fifth International Congress of Rheology, Vol. 4, pp. 179–190. Baltimore: University Park Press 1969. / Proceedings of the Fifth International Congress of Rheology, Vol. 4 by S. Hayashi (1969)
  254. Fox, T.G., Allen, V.R.: Dependence of the zero-shear melt viscosity and the related friction coefficient and critical chain length on measurable characteristics of chain polymers. J. Chem. Phys. 41, 344–352 (1964). (10.1063/1.1725872) / J. Chem. Phys. by T.G. Fox (1964)
  255. Hoffmann, M.: Der Einfluß von Verhakungen auf die mechanische Relaxation und das Fließen der amorphen Polymeren. Rheol. Acta 6, 377–390 (1967). (10.1007/BF01984635) / Rheol. Acta by M. Hoffmann (1967)
  256. Tonelli, A.E.: A molecular approach to chain entanglement in linear polymers. J. Polymer Sci. Part A-2 8, 625–635 (1970). (10.1002/pol.1970.160080412) / J. Polymer Sci. Part A-2 by A.E. Tonelli (1970)
  257. Pechhold, W.: Molekülbewegung in Polymeren. I. Teil: Konzept einer Festkörperphysik makromolekularer Stoffe. Kolloid-Z. Z. Polymere 228, 1–38 (1968). (10.1007/BF02125760) / Kolloid-Z. Z. Polymere by W. Pechhold (1968)
  258. Bueche, F.: Melt viscosity of polymers: effect of polydispersity. J. Polymer Sci. 43, 527–530 (1960). (10.1002/pol.1960.1204314222) / J. Polymer Sci. by F. Bueche (1960)
  259. Prest, W.M., Jr., Porter, R.S.: The effect of high-molecular-weight components on the viscoelastic properties of polystyrene. Polymer J. (Japan) 4, 154–162 (1973). (10.1295/polymj.4.154) / Polymer J. by W.M. Prest Jr. (1973)
  260. Case, L.C., Wargin, R.V.: Elastomer behavior. IV. The loop structure of elastomer networks. Makromol. Chem. 77, 172–184 (1964). (10.1002/macp.1964.020770116) / Makromol. Chem. by L.C. Case (1964)
  261. Alfrey, T., Jr., Lloyd, W.G.: Network polymers. I. Theoretical remarks. J. Polymer Sci. 62, 159–165 (1962). (10.1002/pol.1962.1206217312) / J. Polymer Sci. by T. Alfrey Jr. (1962)
  262. Moore, C.G., Watson, W.F.: Determination of degree of crosslinking in natural rubber vulcanizates. Part II. J. Polymer Sci. 19, 237–254 (1956). (10.1002/pol.1956.120199202) / J. Polymer Sci. by C.G. Moore (1956)
  263. Bueche, A.M.: An investigation of the theory of rubber elasticity using irradiated poly(dimethylsiloxanes). J. Polymer Sci. 19, 297–306 (1956). (10.1002/pol.1956.120199206) / J. Polymer Sci. by A.M. Bueche (1956)
  264. Langley, N.R.: Elastically effective strand density in polymer networks. Macromolecules 1, 348–352 (1968). (10.1021/ma60004a015) / Macromolecules by N.R. Langley (1968)
  265. Treloar, L.R.G.: The physics of rubber elasticity, 2nd ed. London: Oxford University Press 1958. / The physics of rubber elasticity by L.R.G. Treloar (1958)
  266. Smith, K.J., Jr.: Theories of chain coiling, elasticity, and viscoelasticity. In: Jenkins, A.D. (Ed.): Polymer science, Chapter 5. Amsterdam: North-Holland Publ. Co. 1972. / Polymer science, Chapter 5 by K.J. Smith Jr. (1972)
  267. Mark, J.E.: An experimental comparison of the theories of elasticity of polymer networks. J. Am. Chem. Soc. 92, 7252–7257 (1970). (10.1021/ja00728a004) / J. Am. Chem. Soc. by J.E. Mark (1970)
  268. Rivlin, R.S.: Large elastic deformations. In: Eirich, F.R. (Ed.): Rheology, Vol. 1, pp. 351–385. New York: Academic Press 1956. / Rheology, Vol. 1 by R.S. Rivlin (1956)
  269. Imai, S., Gordon, M.: Rubber elasticity. J. Chem. Phys. 50, 3889–3903 (1969); also note correction regarding g on p. 9 of Ref. (284). (10.1063/1.1671645) / J. Chem. Phys. by S. Imai (1969)
  270. Edwards, S.F.: The statistical mechanics of rubbers. In: Chömpff, A.J., Newman, S. (Eds.): Polymer networks, structure, and mechanical properties, pp. 83–110. New York: Plenum Press 1971. / Polymer networks, structure, and mechanical properties by S.F. Edwards (1971)
  271. Freed, K.F.: Statistical mechanics of systems with internal constraints: rubber elasticity. J. Chem. Phys. 55, 5588–5599 (1971). (10.1063/1.1675726) / J. Chem. Phys. by K.F. Freed (1971)
  272. Eichinger, B.E.: Elasticity theory. I. Distribution functions for perfect phantom networks. Macromolecules 5, 496–505 (1972). (10.1021/ma60028a028) / Macromolecules by B.E. Eichinger (1972)
  273. Guth, E.: Recent developments in the statistical mechanics of polymers. J. Polymer Sci. Pt. C 31, 267–274 (1970). (10.1002/polc.5070310123) / J. Polymer Sci. Pt. C by E. Guth (1970)
  274. Labana, S.S., Newman, S., Chömpff, A.J.: Chemical effects on the ultimate properties of polymer networks in the glassy state, pp. 453–477. In: Polymer networks, structure and mechanical properties. See Ref. (260). / Polymer networks, structure and mechanical properties by S.S. Labana (1971)
  275. Dusek, K.: Inhomogeneities induced by crosslinking in the course of crosslinking copolymerization, pp. 245–260. In: Polymer networks, structure, and mechanical properties. See Ref. (260). / Polymer networks, structure, and mechanical properties by K. Dusek (1971)
  276. Goebel, J.C., Tobolsky, A.V.: Volume changes accompanying rubber extension. Macromolecules 4, 208–209 (1971). (10.1021/ma60020a014) / Macromolecules by J.C. Goebel (1971)
  277. Krigbaum, W.R., Roe, R.-J.: Survey of theory of rubberlike elasticity. Rubber Chem. Tech. 38, 1039–1067 (1965). (10.5254/1.3547104) / Rubber Chem. Tech. by W.R. Krigbaum (1965)
  278. Valanis, K.C., Landel, R.F.: The strain-energy function of a hyperelastic material in terms of extension ratios. J. Appl. Phys. 38, 2997–3002 (1967). (10.1063/1.1710039) / J. Appl. Phys. by K.C. Valanis (1967)
  279. Thirion, P., Chasset, R.: Les rapports entre l'elasticité et la structure des réseaux macromoléculaires: Esquisse d'une nouvelle approche. R.G.C.P. 45, 859–866 (1968). / R.G.C.P. by P. Thirion (1968)
  280. Yu, C.U., Mark, J.E.: Evaluation of the theories of rubber-like elasticity using swollen networks crosslinked at different degrees of dilution. Macromolecules 6, 751–754 (1973). (10.1021/ma60035a021) / Macromolecules by C.U. Yu (1973)
  281. Allen, G., Kirkham, M.J., Padget, J., Price, C.: Thermodynamics of rubber elasticity at constant volume. Trans Faraday Soc. 67, 1278–1292 (1971). (10.1039/tf9716701278) / Trans Faraday Soc. by G. Allen (1971)
  282. Gumbrell, S.M., Mullins, L., Rivlin, R.S.: Departures of the elastic behavior of rubbers in simple extensions from the kinetic theory. Trans. Faraday Soc. 49, 1495–1506 (1953). (10.1039/tf9534901495) / Trans. Faraday Soc. by S.M. Gumbrell (1953)
  283. Van der Hoff, B.M.E.: The stress-strain relation of swollen rubbers. Polymer (London) 6, 397–399 (1965). (10.1016/0032-3861(65)90065-0) / Polymer by B.M.E. Hoff Van der (1965)
  284. Mark, J.E., Flory, P.J.: Stress-strain isotherms for poly-(dimethylsiloxane) networks. J. Appl. Phys. 37, 4635–4639 (1966). (10.1063/1.1708109) / J. Appl. Phys. by J.E. Mark (1966)
  285. Price, C., Allen, G., de Candia, F., Kirkham, M.C., Subramaniam, A.: Stress-strain behavior of natural rubber vulcanized in the swollen state. Polymer (London) 11, 486–491 (1970). (10.1016/0032-3861(70)90053-4) / Polymer by C. Price (1970)
  286. Johnson, R.M., Mark, J.E.: Properties of poly(dimethylsiloxane) networks prepared in solution, and their use in evaluating the theories of rubberlike elasticity. Macromolecules 5, 41–45 (1972). (10.1021/ma60025a011) / Macromolecules by R.M. Johnson (1972)
  287. Gent, A.N., Rivlin, R.S.: Experiments on the mechanics of rubber. II. The torsion, inflation, and extension of a tube. Proc. Phys. Soc. (Pt. B) 65, 487–501 (1952). (10.1088/0370-1301/65/7/304) / Proc. Phys. Soc. (Pt. B) by A.N. Gent (1952)
  288. Van der Hoff, B.M.E., Buckler, E.J.: Transient changes in topology and energy on extension of polybutadiene networks. J. Macromol. Sci. (Chem.) A 1, 747–788 (1967). (10.1080/10601326708054008) / J. Macromol. Sci. (Chem.) by B.M.E. Hoff Van der (1967)
  289. Schaefgen, J.R., Flory, P.J.: Multilinked polyamides. J. Am. Chem. Soc. 72, 689–701 (1950). (10.1021/ja01158a011) / J. Am. Chem. Soc. by J.R. Schaefgen (1950)
  290. Kraus, G., Moczygemba, G.A.: Chain entanglements and elastic behavior in polybutadiene networks. J. Polymer Sci. Part A 2, 277–288 (1964). / J. Polymer Sci. Part A by G. Kraus (1964)
  291. Froelich, D., Crawford, D., Rozek, T., Prins, W.: Ideal network behavior of anionically prepared polystyrene gels. Macromolecules 5, 100–102 (1972). (10.1021/ma60025a025) / Macromolecules by D. Froelich (1972)
  292. Allen, G., Holmes, P.A., Walsh, D.J.: To be published in Disc. Faraday Soc. See also: Walsh, D.J., Allen, G., Ballard, G. Polymer (London) 15, 366–372 (1974).
  293. Tonelli, A.E., Helfand, E.: Elastically ineffective crosslinks in rubbers. ASC Polymer Preprints 15, 605–612 (1974). / ASC Polymer Preprints by A.E. Tonelli (1974)
  294. Schultz, A.R.: Characterization of polymer networks, In: McIntyre, D. (Ed.): Characterization of macromolecular structure, pub. 1573, pp. 389–405. Washington: Nat. Acad. Sci. 1968. / Characterization of macromolecular structure, pub. 1573 by A.R. Schultz (1968)
  295. Scanlan, J.: The effect of network flaws on the elastic properties of vulcanizates. J. Polymer Sci. 43, 501–508 (1860). (10.1002/pol.1960.1204314219) / J. Polymer Sci. by J. Scanlan (1860)
  296. Gordon, M., Kucharuk, S., Ward, T.C.: The statistics of elastically active network chains and the efficiency of crosslinking in rubbers. Collection Czech. Chem. Commun. 35, 3252–3264 (1970). (10.1135/cccc19703252) / Collection Czech. Chem. Commun. by M. Gordon (1970)
  297. Tobolsky, A.V., Carlson, D.W., Indictor, N.: Rubber elasticity and chain configuration. J. Polymer Sci. 54, 175–192 (1961). (10.1002/pol.1961.1205415913) / J. Polymer Sci. by A.V. Tobolsky (1961)
  298. Gordon, M., Ward, T.C., Whitney, R.S.: Chemical and physical aspects of the three stages in forming polymer networks. In: Polymer networks, structure, and mechanical properties, pp. 1–23. See Ref. (260). / Polymer networks, structure, and mechanical properties by M. Gordon (1971)
  299. Mancke, R.G., Dickie, R.A., Ferry, J.D.: Dynamic mechanical properties of crosslinked rubbers. V. An approximate analysis of the modulus contributions of trapped and untrapped entanglements. J. Polymer Sci., Part A-2 6, 1783–1789 (1968). / J. Polymer Sci. by R.G. Mancke (1968)
  300. Kraus, G.: Quantitative characterization of polybutadiene networks. J. Appl. Polymer Sci. 7, 1257–1263 (1963). (10.1002/app.1963.070070406) / J. Appl. Polymer Sci. by G. Kraus (1963)
  301. Pearson, D.S., Skutnik, B.J., Bohm, G.G.A.: Radiation crosslinking of elastomers. I. Polybutadienes. J. Polymer Sci. Polymer Phys. Ed. 12, 925–939 (1974). (10.1002/pol.1974.180120507) / J. Polymer Sci. Polymer Phys. Ed. by D.S. Pearson (1974)
  302. Bristow, G.M.: Relation between stress-strain behavior and equilibrium volume swelling for peroxide vulcanizates of natural rubber and cis-1,4-polyisoprene. J. Appl. Polymer Sci. 9, 1571–1578 (1965). (10.1002/app.1965.070090432) / J. Appl. Polymer Sci. by G.M. Bristow (1965)
  303. Flory, P.J., Rabjohn, N., Shaffer, M.C.: Dependence of elastic properties of vulcanized rubber on the degree of crosslinking. J. Polymer Sci. 4, 225–245 (1949). (10.1002/pol.1949.120040301) / J. Polymer Sci. by P.J. Flory (1949)
  304. Mullins, L.: Determination of degree of crosslinking in natural rubber vulcanizate. J. Appl. Polymer Sci. 2, 1–7 (1959). (10.1002/app.1959.070020401) / J. Appl. Polymer Sci. by L. Mullins (1959)
  305. St. Pierre, L.E., Dewhurst, H.A., Bueche, A.M.: Swelling and elasticity of irradiated polydimethylsiloxanes. J. Polymer Sci. 36, 105–111 (1959). (10.1002/pol.1959.1203613009) / J. Polymer Sci. by L.E. St. Pierre (1959)
  306. Langley, N.R., Polmanteer, K.E.: The role of chain entanglements in rubber elasticity. Am. Chem. Soc. Polymer Preprints 13, 235–240 (1972). / Am. Chem. Soc. Polymer Preprints by N.R. Langley (1972)
  307. Langley, N.R., Polmanteer, K.E.: The relation of elastic modulus to crosslink and entanglement concentrations in rubber networks. J. Polymer Sci. Polymer Phys. Ed. 12, 1023–1034 (1974). (10.1002/pol.1974.180120601) / J. Polymer Sci. Polymer Phys. Ed. by N.R. Langley (1974)
  308. Langley, N.R., Ferry, J.D.: Dynamic mechanical properties of crosslinked rubbers. VI. Poly(dimethylsiloxane) networks. Macromolecules 1, 353–358 (1968). (10.1021/ma60004a016) / Macromolecules by N.R. Langley (1968)
  309. Kramer, O., Ty, V., Ferry, J.D.: Entanglement coupling in linear polymers demonstrated by networks crosslinked in states of strain. Proc. Natl. Acad. Sci. 69, 2216–2218 (1972). (10.1073/pnas.69.8.2216) / Proc. Natl. Acad. Sci. by O. Kramer (1972)
  310. Kramer, O., Carpenter, R.L., Ty, V., Ferry, J.D.: Entanglement networks crosslinked in states of strain, paper presented at Society of Rheology Meeting, Montreal, October 1973. Part of this work is described in Entanglement networks of 1,2-polybutadiene crosslinked in states of strain. I. Cross-linking at 0° C. Macromolecules 7, 79–84 (1974), by the same authors. (10.1021/ma60037a016) / Macromolecules by O. Kramer (1974)
  311. Baldwin, F.P., Ver Strate, G.: Polyolefin elastomers based on ethylene and propylene. Rubber Chem. Techn. 45, 709–881 (1972). (10.5254/1.3544730) / Rubber Chem. Techn. by F.P. Baldwin (1972)
  312. Cohen, R.E., Tschoegl, N.W.: Dynamic mechanical properties of block copolymer blends—a study of the effects of terminal chains in elastomeric materials. I. Torsion pendulum measurements. Intern. J. Polymeric Mater. 2, 49–69 (1972); II. Forced oscillation measurements. Ibid 2, 205–223 (1973); III. A mechanical model for entanglement slippage. Ibid (in press). (10.1080/00914037208075299) / Intern. J. Polymeric Mater. by R.E. Cohen (1972)
  313. Kramer, O., Greco, R., Ferry, J.D.: Viscoelastic properties of butyl rubber networks containing reptating polyisobutylene. Paper presented at the San Diego meeting of the American Physical Society, March, 1973.
  314. Edwards, S.F.: Statistical mechanics with topological constraints. I. Proc. Phys. Soc. 91, 513–519 (1967). (10.1088/0370-1328/91/3/301) / Proc. Phys. Soc. by S.F. Edwards (1967)
  315. Schill, G.: Catenanes, rotaxanes and knots. New York: Academic Press 1971. / Catenanes, rotaxanes and knots by G. Schill (1971)
  316. Prager, S., Frisch, H.L.: Statistical mechanics of a simple entanglement. J. Chem. Phys. 46, 1475–1483 (1967). (10.1063/1.1840877) / J. Chem. Phys. by S. Prager (1967)
  317. Alexander-Katz, R., Edwards, S.F.: The statistical mechanics of entangled polymers. J. Phys. A Gen. Phys. 5, 674–681 (1972). (10.1088/0305-4470/5/5/009) / J. Phys. A Gen. Phys. by R. Alexander-Katz (1972)
  318. Edwards, S.F., Freed, K.F.: The entropy of a confined polymer. I. J. Phys. A. Gen. Phys. 2, 145–150 (1969). (10.1088/0305-4470/2/2/001) / J. Phys. A. Gen. Phys. by S.F. Edwards (1969)
  319. Collins, R., Wragg, A.: The entropy of a confined polymer. II. J. Phys. A. Gen. Phys. 2, 151–156 (1969). (10.1088/0305-4470/2/2/002) / J. Phys. A. Gen. Phys. by R. Collins (1969)
  320. Eichinger, B.E.: Elastic theory. II. Matrix method for a confined circular chain. J. Chem. Phys. 57, 1356–1357 (1972). (10.1063/1.1678402) / J. Chem. Phys. by B.E. Eichinger (1972)
  321. Peterlin, A.: Rheology of polymer systems. J. Elastoplastics 4, 112–130 (1972). (10.1177/009524437200400301) / J. Elastoplastics by A. Peterlin (1972)
  322. Ito, Y., Shishida, S.: Critical molecular weight for onset of non-newtonian flow and upper newtonian viscosity of polydimethylsiloxane. J. Polymer Sci., Polymer Phys. Ed. 10, 2239–2278 (1972). (10.1002/pol.1972.180101111) / J. Polymer Sci., Polymer Phys. Ed. by Y. Ito (1972)
  323. Philippoff, W.: Correlation of the elastic properties in steady-state flow and vibrational experiments. J. Appl. Phys. 36, 3033–3038 (1965). (10.1063/1.1702923) / J. Appl. Phys. by W. Philippoff (1965)
  324. Bueche, F.: Influence of rate of shear on the apparent viscosity of a—dilute polymer solutions and b—bulk polymers. J. Chem. Phys. 22, 1570–1576 (1954). (10.1063/1.1740460) / J. Chem. Phys. by F. Bueche (1954)
  325. Pao, Y.-H.: Dependence of intrinsic viscosity of dilute solutions of macromolecules on velocity gradient. J. Chem. Phys. 25, 1294–1295 (1956). (10.1063/1.1743219) / J. Chem. Phys. by Y.-H. Pao (1956)
  326. Onogi, S., Masuda, T., Kitagawa, K.: Rheological properties of anionic polystyrenes. I. Dynamic viscoelasticity of narrow-distribution polystyrenes. Macromolecules 3, 109–116 (1970). (10.1021/ma60014a001) / Macromolecules by S. Onogi (1970)
  327. Penwell, R.C., Graessley, W.W., Kovacs, A.: J. Polymer Sci. Polymer Phys. Ed. (in press).
  328. Cox, W.P., Merz, E.H.: Correlation of dynamic and steady flow viscosities. J. Polymer Sci. 28, 619–622 (1958). (10.1002/pol.1958.1202811812) / J. Polymer Sci. by W.P. Cox (1958)
  329. Stratton, R.A.: Non-newtonian flow in polymer systems with no entanglement coupling. Macromolecules 5, 304–310 (1972). (10.1021/ma60027a015) / Macromolecules by R.A. Stratton (1972)
  330. Harris, E.K., Jr.: Viscometric properties of polymer solutions and blends as functions of concentration and molecular weight. Ph. D. thesis, University of Wisconsin, 1970.
  331. Ito, Y., Shishido, S.: A modified Graessley theory for non-newtonian viscosity of polydimethylsiloxanes and their solutions. J. Polymer Sci. Polymer Phys. Ed. 12, 617–628 (1974). (10.1002/pol.1974.180120313) / J. Polymer Sci. Polymer Phys. Ed. by Y. Ito (1974)
  332. Noda, I., Yamada, Y., Nagasawa, M.: The rate of shear dependence of the intrinsic viscosity of monodisperse polymer. J. Phys. Chem. 72, 2890–2898 (1968). (10.1021/j100854a035) / J. Phys. Chem. by I. Noda (1968)
  333. Kotaka, T., Suzuki, H., Inagaki, H.: Shear-rate dependence of the intrinsic viscosity of flexible linear macromolecules. J. Chem. Phys. 45, 2770–2773 (1966). (10.1063/1.1728023) / J. Chem. Phys. by T. Kotaka (1966)
  334. Suzuki, H., Kotaka, T., Inagaki, H.: Shear-rate dependence of the intrinsic viscosity of flexible linear macromolecules. II. Solvent effect. J. Chem. Phys. 51, 1279–1285 (1969). (10.1063/1.1672172) / J. Chem. Phys. by H. Suzuki (1969)
  335. Yamaguchi, N.: Sugiura, Y., Okamo, K., Wada, E.: Non-newtonian viscosity and excluded volume effect of dilute solutions of flexible high polymers. J. Phys. Chem. 75, 1141–1149 (1971). (10.1021/j100678a020) / J. Phys. Chem. by N. Yamaguchi (1971)
  336. Gruver, J.T., Kraus, G.: Rheological properties of polybutadienes prepared by n-butyllithium initiation. J. Polymer Sci. Pt. A 2, 797–810 (1964). / J. Polymer Sci. Pt. A by J.T. Gruver (1964)
  337. Lee, C.L., Polmanteer, K.E., King, E.G.: Flow behavior of narrow-distribution polydimethylsiloxane. J. Polymer Sci. Pt. A-2 9, 1909–1916 (1970). (10.1002/pol.1970.160081106) / J. Polymer Sci. Pt. A-2 by C.L. Lee (1970)
  338. Stratton, R.A.: The dependence of non-newtonian viscosity on molecular weight for monodisperse polystyrene. J. Colloid Sci. 22, 517–530 (1966). (10.1016/0021-9797(66)90047-6) / J. Colloid Sci. by R.A. Stratton (1966)
  339. Paul, D.R., St. Laurence, J.E., Troell, J.H.: Flow behavior of concentrated solutions of an SBS block copolymer Polymer Eng. Sci. 10, 70–78 (1970). (10.1002/pen.760100204) / Polymer Eng. Sci. by D.R. Paul (1970)
  340. Mendelson, R.A., Bowles, W.A., Finger, F.L.: Effect of molecular structure on polyethylene melt rheology. I. Low shear behavior. J. Polymer Sci. Pt. A-2 8, 105–126 (1970). (10.1002/pol.1970.160080109) / J. Polymer Sci. Pt. A-2 by R.A. Mendelson (1970)
  341. Kataoka, T.: Onset of non-newtonian flow: a correlation with an average molecular weight. Polymer Letters 5, 1063–1068 (1967). (10.1002/pol.1967.110051204) / Polymer Letters by T. Kataoka (1967)
  342. Vinogradov, G.V.: Flow and rubber elasticity of polymer systems. Pure and Appl. Chem. 26, 423–449 (1971). (10.1351/pac197126030423) / Pure and Appl. Chem. by G.V. Vinogradov (1971)
  343. Markovitz, H.: The reduction principle in linear viscoleasticity. J. Phys. Chem. 69, 671 (1965). (10.1021/j100886a508) / J. Phys. Chem. by H. Markovitz (1965)
  344. Markovitz, H.: (Private communication).
  345. Subirana, J.A.: Solvent effects on the non-newtonian viscosity of dilute solutions of flexible linear macromolecules. J. Chem. Phys. 41, 3852–3856 (1964). (10.1063/1.1725824) / J. Chem. Phys. by J.A. Subirana (1964)
  346. Peterlin, A.: Gradient dependence of intrinsic viscosity of freely flexible linear macromolecules. J. Chem. Phys. 33, 1799–1802 (1960). (10.1063/1.1731506) / J. Chem. Phys. by A. Peterlin (1960)
  347. Burow, S.P., Peterlin, A., Turner, D.T.: The upturn effect in the non-newtonian viscosity of polymer solutions. Polymer (London) 6, 35–47 (1965). (10.1016/0032-3861(65)90077-7) / Polymer by S.P. Burow (1965)
  348. Fixman, M.: Polymer dynamics: non-newtonian intrinsic viscosity. J. Chem. Phys. 45, 793–803 (1866). (10.1063/1.1727683) / J. Chem. Phys. by M. Fixman (1866)
  349. Cottrell, F.R., Merrill, E.W., Smith, K.A.: Conformation of polyisobutylene in dilute solution subjected to a hydrodynamic flow field. J. Polymer Sci. Pt. A-2 7, 1415–1434 (1969). (10.1002/pol.1969.160070811) / J. Polymer Sci. Pt. A-2 by F.R. Cottrell (1969)
  350. Cottrell, F.R., Merrill, E.W., Smith, K.A.: Intrinsic viscosity and axial extension ratio of random-coiling macromolecules in a hydrodynamic flow field. J. Polymer Sci. Pt. A-2 8, 289–294 (1970). (10.1002/pol.1970.160080207) / J. Polymer Sci. Pt. A-2 by F.R. Cottrell (1970)
  351. Champion, J.V., Davis, I.D.: Light scattering by solutions of flexible macromolecules subjected to flow. J. Chem. Phys. 52, 381–385 (1970). (10.1063/1.1672696) / J. Chem. Phys. by J.V. Champion (1970)
  352. Warner, H.R., Jr.: Kinetic theory and rheology of dilute suspensions of finitely extendible dumbbells. Ind. Eng. Chem. Fundam. 11, 379–387 (1972). (10.1021/i160043a017) / Ind. Eng. Chem. Fundam. by H.R. Warner Jr. (1972)
  353. Booij, H.C., van Wiechen, P.H.: Effect of internal viscosity on the deformation of a linear macromolecule in a sheared solution. J. Chem. Phys. 52, 5056–5068 (1870). (10.1063/1.1672743) / J. Chem. Phys. by H.C. Booij (1870)
  354. Zimmerman, R.D., Williams, M.C.: Evaluation of internal viscosity models. Trans. Soc. Rheol. 17, 23–46 (1973). (10.1122/1.549294) / Trans. Soc. Rheol. by R.D. Zimmerman (1973)
  355. Bazúa, E.R., Williams, M.C.: Rheological properties of internal viscosity models with stress symmetry. J. Polymer Sci. Polymer Phys. Ed. 12, 825–843 (1974). (10.1002/pol.1974.180120501) / J. Polymer Sci. Polymer Phys. Ed. by E.R. Bazúa (1974)
  356. Munk, P., Peterlin, A.: Streaming birefringence. IX. Invariant expressions for chain molecules. Rheol. Acta 9, 288–293 (1970). (10.1007/BF01973490) / Rheol. Acta by P. Munk (1970)
  357. Ree, T., Eyring, H.: Theory of non-newtonian flow. I. Solid plastic system. J. Appl. Phys. 26, 793–800 (1955). (10.1063/1.1722098) / J. Appl. Phys. by T. Ree (1955)
  358. Woods, M.E., Krieger, I.M.: Rheological studies on dispersions of uniform colloidal spheres. I. Aqueous dispersions in steady shear flow. J. Colloid Sci. 34, 91–99 (1970). (10.1016/0021-9797(70)90262-6) / J. Colloid Sci. by M.E. Woods (1970)
  359. Papir, Y.S., Krieger, I.M.: Rheological studies on dispersions of uniform colloidal spheres. II. Dispersions in non-aqueous media. J. Colloid Sci. 34, 126–130 (1970). (10.1016/0021-9797(70)90265-1) / J. Colloid Sci. by Y.S. Papir (1970)
  360. Graessley, W.M.: Molecular entanglement theory of flow behavior in amorphous polymers. J. Chem. Phys. 43, 2696–2703 (1965). (10.1063/1.1697198) / J. Chem. Phys. by W.M. Graessley (1965)
  361. Graessley, W.W., Segal, L.: Effect of molecular weight distribution on the shear rate dependence of viscosity in polymer systems. A.I.Ch.E. J. 16, 261–267 (1970). (10.1002/aic.690160219) / A.I.Ch.E. J. by W.W. Graessley (1970)
  362. Abdel-Alim, A.H., Balke, S.T., Hamielec, A.E.: Flow properties of polystyrene solutions under high shear rates. J. Appl. Polymer Sci. 17, 1431–1442 (1973). (10.1002/app.1973.070170510) / J. Appl. Polymer Sci. by A.H. Abdel-Alim (1973)
  363. Bueche, F.: Viscosity of entangled polymers; theory of variation with shear rate. J. Chem. Phys. 48, 4781–4784 (1968). (10.1063/1.1668062) / J. Chem. Phys. by F. Bueche (1968)
  364. Shroff, R. N., Shida, M.: Correlation between steady state flow curve, and molecular weight distribution for polyethylene melts. Polymer Eng. Sci. 11, 200–204 (1971). (10.1002/pen.760110306) / Polymer Eng. Sci. by R. N. Shroff (1971)
  365. Middleman, S.: Effect of molecular weight distribution on viscosity of polymeric fluids. J. Appl. Polymer. Sci. 11, 417–424 (1967). (10.1002/app.1967.070110309) / J. Appl. Polymer. Sci. by S. Middleman (1967)
  366. Philippoff, W., Gaskins, F.H., Brodnyan, J.G.: Flow birefringence and stress. V. Correlation of recoverable shear strains with other rheological properties of polymer solutions. J. Appl. Phys. 28, 1118–1123 (1957). (10.1063/1.1722590) / J. Appl. Phys. by W. Philippoff (1957)
  367. Spriggs, T.W., Huppler, J.D., Bird, R.B.: An experimental appraisal of viscoelastic models. Trans. Soc. Rheol. 10, 191–213 (1966). (10.1122/1.549057) / Trans. Soc. Rheol. by T.W. Spriggs (1966)
  368. Graessley, W.W., Segal, L.: Flow behavior of polystyrene systems on steady shearing flow. Macromolecules 2, 47–57 (1969). (10.1021/ma60007a010) / Macromolecules by W.W. Graessley (1969)
  369. Tanaka, T., Yamamoto, M., Takano, Y.: Non-newtonian flow in concentrated polymer systems. J. Macromol. Sci. Pt. B 4, 931–946 (1970). (10.1080/00222347008217133) / J. Macromol. Sci. Pt. B by T. Tanaka (1970)
  370. Bird, R.B., Warner, H.R., Jr.: Hydrodynamic interaction effects in rigid dumbbell suspensions. I. Kinetic theory. Trans. Soc. Rheol. 15, 741–750 (1971). (10.1122/1.549220) / Trans. Soc. Rheol. by R.B. Bird (1971)
  371. Wales, J.L.S., Philippoff, W.: The anisotropy of simple shearing flow. Rheol. Acta 12, 25–34 (1973). (10.1007/BF01526896) / Rheol. Acta by J.L.S. Wales (1973)
  372. Vinogradov, G.V., Belkin, I.M.: Elastic strength, and viscous properties of polymer (polyethylene and polystyrene) melts. J. Polymer Sci. Pt. A 3, 917–932 (1965). / J. Polymer Sci. Pt. A by G.V. Vinogradov (1965)
  373. Huppler, J.D., MacDonald, I.F., Ashare, E., Spriggs, T.W., Bird, R.B., Holmes, L.A.: Rheological properties of three solutions. Part II. Relaxation and growth of shear and normal stresses. Trans. Soc. Rheol. 11, 181–204 (1967). (10.1122/1.549077) / Trans. Soc. Rheol. by J.D. Huppler (1967)
  374. Zapas, L.J., Phillips, J.C.: Simple shearing flows of polyisobutylene solutions. J. Res. Natl. Bur. St. 75A, 33–40 (1971). (10.6028/jres.075A.005) / J. Res. Natl. Bur. St. by L.J. Zapas (1971)
  375. Schurz, J., Mavrommatakos, A.: Die prästationären Anlaufkurven bei Polyvinylacetat-Lösungen. Angew. Makromol. Chem. 15, 95–107 (1971). (10.1002/apmc.1971.050150108) / Angew. Makromol. Chem. by J. Schurz (1971)
  376. Schremp, F.W., Ferry, J.D., Evans, W.W.: Mechanical properties of substances of high molecular weight. IX. Non-Newtonian flow and stress relaxation in concentrated polyisobutylene and polystyrene solutions. J. Appl. Phys. 22, 711–717 (1951). (10.1063/1.1700036) / J. Appl. Phys. by F.W. Schremp (1951)
  377. Sakai, M., Fukaya, H., Nagasawa, M.: Time dependent viscoelastic properties of concentrated polymer solutions. Trans. Soc. Rheol. 16, 635–649 (1972). (10.1122/1.549267) / Trans. Soc. Rheol. by M. Sakai (1972)
  378. Einaga, Y., Osaki, K., Kurata, M., Kimura, S., Tamura, M.: Stress relaxation of polymers of polymers under large strain. Polymer J. (Japan) 2, 550–552 (1971). See also Polymer J. (Japan) 5, 91–96 (1973). (10.1295/polymj.2.550) / Polymer J. by Y. Einaga (1971)
  379. Berry, G.C.: (Private communication).
  380. Osaki, K., Tamura, M., Kurata, M., Kotaka, T.: Complex modulus of concentrated polymer solutions in steady shear. J. Phys. Chem. 69, 4183–4191 (1965). (10.1021/j100782a020) / J. Phys. Chem. by K. Osaki (1965)
  381. Booij, H.C.: Influence of superimposed steady shear flow on the dynamic properties of non-Newtonian fluids. Rheol. Acta 5, 215–221 (1966). (10.1007/BF01982430) / Rheol. Acta by H.C. Booij (1966)
  382. Simmons, J.M.: Dynamic modulus of polyisobutylene solutions in superposed steady shear flow. Rheol. Acta. 7, 184–188 (1968). (10.1007/BF01982380) / Rheol. Acta. by J.M. Simmons (1968)
  383. Tanner, R.I., Williams, G.: On the orthogonal superposition of simple shearing and small-strain oscillatory motions. Rheol. Acta 10, 528–538 (1971). (10.1007/BF03396403) / Rheol. Acta by R.I. Tanner (1971)
  384. Sell, J.W., Forsman, W.C.: Loss moduli under steady shearing of concentrated polystyrene solutions. Macromolecules 5, 23–24 (1972). (10.1021/ma60025a006) / Macromolecules by J.W. Sell (1972)
  385. Lee, K.H., Jones, L.G., Pandalai, K., Brodkey, R.S.: Modifications of an R-16 Weissenberg Rheogoniometer. Trans. Soc. Rheol. 14, 555–572 (1970). (10.1122/1.549196) / Trans. Soc. Rheol. by K.H. Lee (1970)
  386. Meissner, J.: Modification of the Weissenberg rheogoniometer for measurement of transient rheological properties of molten polyethylene under shear. Comparison with tensile data. J. Appl. Polymer Sci. 16, 2877–2899 (1972). (10.1002/app.1972.070161114) / J. Appl. Polymer Sci. by J. Meissner (1972)
  387. Pipkin, A.C.: Small displacements superposed on viscometric flow. Trans. Soc. Rheology 12, 397–408 (1968). (10.1122/1.549113) / Trans. Soc. Rheology by A.C. Pipkin (1968)
  388. Markovitz, H.: Small deformations superimposed on steady viscometric flows. In: Onogi, S. (Ed.): Proc. 5th Internat. Cong. Rheology, Vol. I, pp. 499–510. Maryland: University Park Press 1970. / Proc. 5th Internat. Cong. Rheology, Vol. I by H. Markovitz (1970)
  389. Bernstein, B., Fosdick, R.L.: On four rheological relations. Rheol. Acta 9, 186–193 (1970). (10.1007/BF01973478) / Rheol. Acta by B. Bernstein (1970)
  390. Penwell, R.C.: (Private communication).
  391. Lodge, A.S., Meissner, J.: Comparison of network theory predictions with stress/time data in shear and elongation for a low density polyethylene melt. Rheol. Acta 12, 41–47 (1973). (10.1007/BF01526898) / Rheol. Acta by A.S. Lodge (1973)
  392. Bagley, E.B., Storey, S.H., West, D.C.: Post extrusion swelling in polyethylene. J. Appl. Polymer Sci. 7, 1661–1672 (1963). (10.1002/app.1963.070070508) / J. Appl. Polymer Sci. by E.B. Bagley (1963)
  393. Stratton, R.A., Butcher, A.F.: Stress relaxation upon cessation of steady flow and the overshoot effect of polymer solutions. J. Polymer Sci. Polymer Phys. Ed. 11, 1747–1758 (1973). (10.1002/pol.1973.180110907) / J. Polymer Sci. Polymer Phys. Ed. by R.A. Stratton (1973)
  394. van Es, H.E., Christensen, R.M.: A critical test for a class of non-linear constitutive equations. Trans. Soc. Rheol. 17, 325–328 (1973). (10.1122/1.549293) / Trans. Soc. Rheol. by H.E. Es van (1973)
  395. Bogue, D.C., White, J.L.: Engineering analyses of non-newtonian fluids. AGARDograph 144 (N.A.T.O.). Springfield, Va.: National Technical Information Service, 1970. / Engineering analyses of non-newtonian fluids. AGARDograph 144 (N.A.T.O.) by D.C. Bogue (1970)
  396. Carreau, P.J.: Rheological equations from molecular network theories. Trans. Soc. Rheol. 16, 99–127 (1972). (10.1122/1.549276) / Trans. Soc. Rheol. by P.J. Carreau (1972)
  397. Ziabicki, A.: Structural theories in polymer rheology. In: Proc. 5th Internat. Cong. Rheology, Vol. 3, pp. 235–253. Maryland: University Park Press 1970. / Proc. 5th Internat. Cong. Rheology, Vol. 3 by A. Ziabicki (1970)
  398. Tanner, R.I., Simmons, J.M.: Combined simple and sinusoidal shearing in elastic liquids. Chem. Eng. Sci. 22, 1803–1815 (1967). (10.1016/0009-2509(67)80211-2) / Chem. Eng. Sci. by R.I. Tanner (1967)
  399. Ferry, J.D.: An example of a rheological conceptual scheme. In: Onogi, S. (Ed.): Proc. 5th Internat. Cong. of Rheology, Vol. 1, pp. 3–21. Maryland: University Park Press 1970. / Proc. 5th Internat. Cong. of Rheology, Vol. 1 by J.D. Ferry (1970)
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Created 19 years, 7 months ago (Jan. 25, 2006, 9:55 a.m.)
Deposited 1 year, 6 months ago (Feb. 2, 2024, 8:54 a.m.)
Indexed 3 days, 23 hours ago (Aug. 21, 2025, 1:37 p.m.)
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@inbook{Graessley, title={The entanglement concept in polymer rheology}, ISBN={3540069305}, url={http://dx.doi.org/10.1007/bfb0031037}, DOI={10.1007/bfb0031037}, booktitle={The Entanglement Concept in Polymer Rheology}, publisher={Springer-Verlag}, author={Graessley, William W.}, pages={1–179} }