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Dynamic dilution exponent in monodisperse entangled polymer solutions

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  1. Dealy John M., Larson Ronald G., Structure and Rheology of Molten Polymers : From Structure to Flow Behavior and Back Again, ISBN:9783446217713, 10.3139/9783446412811
  2. Watanabe H., Viscoelasticity and dynamics of entangled polymers, 10.1016/s0079-6700(99)00029-5
  3. McLeish T. C. B., Tube theory of entangled polymer dynamics, 10.1080/00018730210153216
  4. van Ruymbeke, Rheol. Rev., 53 (2007)
  5. Likhtman Alexei E., McLeish Tom C. B., Quantitative Theory for Linear Dynamics of Linear Entangled Polymers, 10.1021/ma0200219
  6. Khaliullin Renat N., Schieber Jay D., Application of the Slip-Link Model to Bidisperse Systems, 10.1021/ma902823k
  7. Masubuchi Yuichi, Watanabe Hiroshi, Ianniruberto Giovanni, Greco Francesco, Marrucci Giuseppe, Comparison among Slip-Link Simulations of Bidisperse Linear Polymer Melts, 10.1021/ma800954q
  8. Masubuchi, Chem. Phys., 115, 4387 (2001)
  9. Masubuchi Yuichi, Ianniruberto Giovanni, Greco Francesco, Marrucci Giuseppe, Entanglement molecular weight and frequency response of sliplink networks, 10.1063/1.1605382
  10. Shanbhag S., Larson R. G., A Slip-Link Model of Branch-Point Motion in Entangled Polymers, 10.1021/ma034532m
  11. Shivokhin M. E., van Ruymbeke E., Bailly C., Kouloumasis D., Hadjichristidis N., Likhtman A. E., Understanding Constraint Release in Star/Linear Polymer Blends, 10.1021/ma402475a
  12. Likhtman Alexei E., Sukumaran Sathish K., Ramirez Jorge, Linear Viscoelasticity from Molecular Dynamics Simulation of Entangled Polymers, 10.1021/ma070843b
  13. Park Seung Joon, Larson Ronald G., Tube Dilation and Reptation in Binary Blends of Monodisperse Linear Polymers, 10.1021/ma0343683
  14. Park Seung Joon, Larson Ronald G., Long-chain dynamics in binary blends of monodisperse linear polymers, 10.1122/1.2127907
  15. Wang Shanfeng, Wang Shi-Qing, Halasa A., Hsu W.-L., Relaxation Dynamics in Mixtures of Long and Short Chains:  Tube Dilation and Impeded Curvilinear Diffusion, 10.1021/ma0210426
  16. van Ruymbeke E., Shchetnikava V., Matsumiya Y., Watanabe H., Dynamic Dilution Effect in Binary Blends of Linear Polymers with Well-Separated Molecular Weights, 10.1021/ma501566w
  17. van Ruymbeke E., Masubuchi Y., Watanabe H., Effective Value of the Dynamic Dilution Exponent in Bidisperse Linear Polymers: From 1 to 4/3, 10.1021/ma202167q
  18. Marrucci G., Relaxation by reptation and tube enlargement: A model for polydisperse polymers, 10.1002/pol.1985.180230115
  19. Ball R. C., McLeish T. C. B., Dynamic dilution and the viscosity of star-polymer melts, 10.1021/ma00194a066
  20. M. Doi and S. F.Edwards, The Theory of Polymer Dynamics, Oxford, 1986
  21. Colby Ralph H., Fetters Lewis J., Funk Walter G., Graessley William W., Effects of concentration and thermodynamic interaction on the viscoelastic properties of polymer solutions, 10.1021/ma00013a021
  22. Watanabe Hiroshi, Ishida Satoshi, Matsumiya Yumi, Inoue Tadashi, Test of Full and Partial Tube Dilation Pictures in Entangled Blends of Linear Polyisoprenes, 10.1021/ma0495689
  23. Watanabe Hiroshi, Ishida Satoshi, Matsumiya Yumi, Inoue Tadashi, Viscoelastic and Dielectric Behavior of Entangled Blends of Linear Polyisoprenes Having Widely Separated Molecular Weights:  Test of Tube Dilation Picture, 10.1021/ma030443y
  24. Sawada Toshiaki, Qiao Xiuying, Watanabe Hiroshi, Viscoelastic Relaxation of Linear Polyisoprenes: Examination of Constraint Release Mechanism, 10.1678/rheology.35.11
  25. Matsumiya Yumi, Kumazawa Kazuki, Nagao Masahiro, Urakawa Osamu, Watanabe Hiroshi, Dielectric Relaxation of Monodisperse Linear Polyisoprene: Contribution of Constraint Release, 10.1021/ma400606n
  26. Colby Ralph H., Rubinstein Michael, Two-parameter scaling for polymers in Θ solvents, 10.1021/ma00212a028
  27. M. Rubinstein and R. H.Colby, Polymer Physics, Oxford University Press, New York, 2003
  28. Raju V. R., Menezes E. V., Marin G., Graessley W. W., Fetters L. J., Concentration and molecular weight dependence of viscoelastic properties in linear and star polymers, 10.1021/ma50007a011
  29. Osaki Kunihiro, Nishimura Yoshifumi, Kurata Michio, Viscoelastic properties of semidilute polystyrene solutions, 10.1021/ma00148a019
  30. Isono Yoshinobu, Fujimoto Teruo, Takeno Naoki, Kajiura Hirokazu, Nagasawa Mitsuru, Viscoelastic Properties of Linear Polymers with High Molecular Weights and Sharp Molecular Weight Distributions, 10.1021/ma60065a009
  31. Lee Jung Hun, Archer Lynden A., Stress Relaxation of Star/Linear Polymer Blends, 10.1021/ma020398e
  32. Auhl Dietmar, Chambon Pierre, McLeish Tom C. B., Read Daniel J., Elongational Flow of Blends of Long and Short Polymers: Effective Stretch Relaxation Time, 10.1103/physrevlett.103.136001
  33. Das Chinmay, Inkson Nathanael J., Read Daniel J., Kelmanson Mark A., McLeish Tom C. B., Computational linear rheology of general branch-on-branch polymers, 10.1122/1.2167487
  34. Read D. J., Auhl D., Das C., den Doelder J., Kapnistos M., Vittorias I., McLeish T. C. B., Linking Models of Polymerization and Dynamics to Predict Branched Polymer Structure and Flow, 10.1126/science.1207060
  35. Wang Zuowei, Chen Xue, Larson Ronald G., Comparing tube models for predicting the linear rheology of branched polymer melts, 10.1122/1.3301246
  36. Kapnistos M., Vlassopoulos D., Roovers J., Leal L. G., Linear Rheology of Architecturally Complex Macromolecules:  Comb Polymers with Linear Backbones, 10.1021/ma050644x
  37. Ahmadi Mostafa, Bailly Christian, Keunings Roland, Nekoomanesh Mehdi, Arabi Hassan, van Ruymbeke Evelyne, Time Marching Algorithm for Predicting the Linear Rheology of Monodisperse Comb Polymer Melts, 10.1021/ma102041h
  38. Watanabe Hiroshi, Urakawa Osamu, Kotaka Tadao, Slow Dielectric Relaxation of Entangled Linear cis-Polyisoprenes with Asymmetrically Inverted Dipoles. 2. Behavior in a Short Matrix, 10.1021/ma00091a013
  39. Read D. J., Jagannathan K., Sukumaran S. K., Auhl D., A full-chain constitutive model for bidisperse blends of linear polymers, 10.1122/1.4707948
  40. Viovy Jean Louis, Rubinstein Michael, Colby Ralph H., Constraint release in polymer melts: tube reorganization versus tube dilation, 10.1021/ma00012a020
  41. Doi M., Graessley W. W., Helfand E., Pearson D. S., Dynamics of polymers in polydisperse melts, 10.1021/ma00174a035
  42. Huang Qian, Hengeller Ludovica, Alvarez Nicolas J., Hassager Ole, Bridging the Gap between Polymer Melts and Solutions in Extensional Rheology, 10.1021/acs.macromol.5b00849
  43. Huang Qian, Mednova Olga, Rasmussen Henrik K., Alvarez Nicolas J., Skov Anne L., Almdal Kristoffer, Hassager Ole, Concentrated Polymer Solutions are Different from Melts: Role of Entanglement Molecular Weight, 10.1021/ma4008434
  44. Huang Qian, Alvarez Nicolas J., Matsumiya Yumi, Rasmussen Henrik K., Watanabe Hiroshi, Hassager Ole, Extensional Rheology of Entangled Polystyrene Solutions Suggests Importance of Nematic Interactions, 10.1021/mz400319v
  45. Nielsen Jens Kromann, Rasmussen Henrik Koblitz, Denberg Martin, Almdal Kristoffer, Hassager Ole, Nonlinear Branch-Point Dynamics of Multiarm Polystyrene, 10.1021/ma061476r
  46. Bach Anders, Almdal Kristoffer, Rasmussen Henrik Koblitz, Hassager Ole, Elongational Viscosity of Narrow Molar Mass Distribution Polystyrene, 10.1021/ma034279q
  47. Bhattacharjee P. K., Oberhauser J. P., McKinley G. H., Leal L. G., Sridhar T., Extensional Rheometry of Entangled Solutions, 10.1021/ma0118623
  48. Williams Malcolm L., Landel Robert F., Ferry John D., The Temperature Dependence of Relaxation Mechanisms in Amorphous Polymers and Other Glass-forming Liquids, 10.1021/ja01619a008
  49. Liu Chen-Yang, He Jiasong, Keunings Roland, Bailly Christian, New Linearized Relation for the Universal Viscosity−Temperature Behavior of Polymer Melts, 10.1021/ma061969w
  50. van Ruymbeke E., Nielsen J., Hassager O., Linear and nonlinear viscoelastic properties of bidisperse linear polymers: Mixing law and tube pressure effect, 10.1122/1.3478316
  51. van Ruymbeke E., Bailly C., Keunings R., Vlassopoulos D., A General Methodology to Predict the Linear Rheology of Branched Polymers, 10.1021/ma0604385
  52. Shchetnikava Volha, Slot Johan J. M., van Ruymbeke Evelyne, A Comparison of Tube Model Predictions of the Linear Viscoelastic Behavior of Symmetric Star Polymer Melts, 10.1021/ma500275t
  53. Struglinski Mark J., Graessley William W., Effects of polydispersity on the linear viscoelastic properties of entangled polymers. 1. Experimental observations for binary mixtures of linear polybutadiene, 10.1021/ma00154a046
  54. Rouse Prince E., A Theory of the Linear Viscoelastic Properties of Dilute Solutions of Coiling Polymers, 10.1063/1.1699180
  55. Milner S. T., McLeish T. C. B., Young R. N., Hakiki A., Johnson J. M., Dynamic Dilution, Constraint-Release, and Star−Linear Blends, 10.1021/ma980481v
  56. van Ruymbeke Evelyne, Kapnistos Michael, Vlassopoulos Dimitris, Huang Tianzi, Knauss Daniel M., Linear Melt Rheology of Pom-Pom Polystyrenes with Unentangled Branches, 10.1021/ma062487n
  57. Inoue Tadashi, Okamoto Hirotaka, Osaki Kunihiro, Birefringence of amorphous polymers. 1. Dynamic measurement on polystyrene, 10.1021/ma00020a029
  58. Ruymbeke Evelyne van, Muliawan Ed B., Vlassopoulos Dimitris, Gao Haifeng, Matyjaszewski Krzysztof, Melt rheology of star polymers with large number of small arms, prepared by crosslinking poly(n-butyl acrylate) macromonomers via ATRP, 10.1016/j.eurpolymj.2010.09.037
  59. Liu Chenyang, He Jiasong, Ruymbeke Evelyne van, Keunings Roland, Bailly Christian, Evaluation of different methods for the determination of the plateau modulus and the entanglement molecular weight, 10.1016/j.polymer.2006.04.054
  60. Matsumiya Yumi, Rakkapao Natthida, Watanabe Hiroshi, Entanglement Length in Miscible Blends ofcis-Polyisoprene and Poly(p-tert-butylstyrene), 10.1021/acs.macromol.5b01866
  61. van Ruymbeke E., Keunings R., Bailly C., Prediction of linear viscoelastic properties for polydisperse mixtures of entangled star and linear polymers: Modified tube-based model and comparison with experimental results, 10.1016/j.jnnfm.2005.01.006
  62. van Ruymbeke E., Vlassopoulos D., Kapnistos M., Liu CY., Bailly C., Proposal to Solve the Time−Stress Discrepancy of Tube Models, 10.1021/ma901229f
  63. Costanzo Salvatore, Huang Qian, Ianniruberto Giovanni, Marrucci Giuseppe, Hassager Ole, Vlassopoulos Dimitris, Shear and Extensional Rheology of Polystyrene Melts and Solutions with the Same Number of Entanglements, 10.1021/acs.macromol.6b00409
  64. Tao Hui, Huang Ching-i, Lodge Timothy P., Correlation Length and Entanglement Spacing in Concentrated Hydrogenated Polybutadiene Solutions, 10.1021/ma981468d
  65. Park Jae Woo, Yoon Jinhwan, Cha Jaehyug, Lee Heon Sang, Determination of molecular weight distribution and composition dependence of monomeric friction factors from the stress relaxation of ultrahigh molecular weight polyethylene gels, 10.1122/1.4928072
Bibliographic reference Shahid, Taisir ; Huang, Q. ; Oosterlinck, F. ; Clasen, C. ; Van Ruymbeke, Evelyne. Dynamic dilution exponent in monodisperse entangled polymer solutions. In: Soft Matter, Vol. 13, no.1, p. 269-282 (2017)
Permanent URL http://hdl.handle.net/2078.1/181996