User menu

Composition and rheology of polyamide-6 obtained by using bi- and tri-functional coupling agents.

Bibliographic reference Slot, J.J.M. ; Van Ruymbeke, Evelyne ; Steeman, P.A.M.. Composition and rheology of polyamide-6 obtained by using bi- and tri-functional coupling agents.. In: Chinese Journal of Polymer Science, Vol. 31, no.1, p. 58-70 (January 2013)
Permanent URL
  1. Steeman Paul, Nijenhuis Atze, The effect of random branching on the balance between flow and mechanical properties of polyamide-6, 10.1016/j.polymer.2010.04.017
  2. Münstedt H., Laun H. M., Elongational behaviour of a low density polyethylene melt : II. Transient behaviour in constant stretching rate and tensile creep experiments. Comparison with shear data. Temperature dependence of the elongational properties., 10.1007/bf01736955
  3. Flory Paul J., Molecular Size Distribution in Three Dimensional Polymers. I. Gelation1, 10.1021/ja01856a061
  4. Flory Paul J., Molecular Size Distribution in Three Dimensional Polymers. II. Trifunctional Branching Units, 10.1021/ja01856a062
  5. Flory Paul J., Fundamental Principles of Condensation Polymerization., 10.1021/cr60122a003
  6. Hillegers L. Tom, Kapnistos Michael, Nijenhuis Atze, Slot Johan J. M., Steeman Paul A. M., Monte Carlo Simulation of Randomly Branched Step-Growth Polymers: Generation and Analysis of Representative Molecular Ensembles, 10.1002/mats.201000071
  7. Durand Dominique, Bruneau Claude-Marcel, Graph Theory and Molecular Distribution. 2. Copolycondensation of A-Group Polyfunctional Monomers with B-Group Polyfunctional Monomers, 10.1021/ma60072a040
  8. Fradet Alain, Tessier Martine, Average Degrees of Polymerization and Molar Masses of Branched and Hyperbranched Condensation Polymers:  Recursive Probability Approach, 10.1021/ma060694h
  9. Huber T., Pötschke P., Pompe G., Häßler R., Voit B., Grutke S., Gruber F., Blends of hyperbranched poly(ether amide)s and polyamide-6, 10.1002/1439-2054(20000801)280:1<33::aid-mame33>;2-p
  10. Scholl Markus, Kadlecova Zuzana, Klok Harm-Anton, Dendritic and hyperbranched polyamides, 10.1016/j.progpolymsci.2008.09.001
  11. Dai Lixing, Huang Nanxun, Tang Zhilian, Hungenberg Klaus-Dieter, Preparation and characterization of polyamide-6 with three-branched chains, 10.1002/app.2177
  12. Han H. Z. Y., McLeish T. C. B., Duckett R. A., Ward N. J., Johnson A. F., Donald A. M., Butler M., Experimental and Theoretical Studies of the Molecular Motions in Polymer Crazing. 1. Tube Model, 10.1021/ma961896o
  13. Han H.Z.Y., Duckett R.A., McLeish T.C.B., Ward N.J., Johnson A.F., Drawing and orientation-relaxation behaviour of monodisperse linear and 3-arm star polystyrenes, 10.1016/s0032-3861(96)00657-x
  14. Baumann F. E., Haeger H., Novikova O., Oenbrink G., Richter R., Finke M., Synthesis and characterization of star-branched PA12 grafted onto PEi core molecule, 10.1002/app.21706
  15. van Ruymbeke Evelyne, Coppola Salvatore, Balacca Letizia, Righi Sandra, Vlassopoulos Dimitris, Decoding the viscoelastic response of polydisperse star/linear polymer blends, 10.1122/1.3368729
  16. Snijkers Frank, van Ruymbeke Evelyne, Kim Paul, Lee Hyojoon, Nikopoulou Anastasia, Chang Taihyun, Hadjichristidis Nikos, Pathak Jai, Vlassopoulos Dimitris, Architectural Dispersity in Model Branched Polymers: Analysis and Rheological Consequences, 10.1021/ma2013805
  17. van Ruymbeke E., Vlassopoulos D., Kapnistos M., Liu CY., Bailly C., Proposal to Solve the Time−Stress Discrepancy of Tube Models, 10.1021/ma901229f
  18. 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
  19. van Ruymbeke E., Bailly C., Keunings R., Vlassopoulos D., A General Methodology to Predict the Linear Rheology of Branched Polymers, 10.1021/ma0604385
  20. van Ruymbeke E., Muliawan E. B., Hatzikiriakos S. G., Watanabe T., Hirao A., Vlassopoulos D., Viscoelasticity and extensional rheology of model Cayley-tree polymers of different generations, 10.1122/1.3368724
  21. 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
  22. Marrucci G., Relaxation by reptation and tube enlargement: A model for polydisperse polymers, 10.1002/pol.1985.180230115
  23. Ball R. C., McLeish T. C. B., Dynamic dilution and the viscosity of star-polymer melts, 10.1021/ma00194a066
  24. Schwarzl F. R., Numerical calculation of storage and loss modulus from stress relaxation data for linear viscoelastic materials, 10.1007/bf02040437
  25. Doi, M. and Edwards, S.F., “The theory of polymer dynamics”, Oxford University Press, New York, 1986
  26. McLeish T. C. B., Tube theory of entangled polymer dynamics, 10.1080/00018730210153216
  27. 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