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Lifetime and network relaxation time of a HEUR-C20 associative polymer system
1.Alami, E. , M. Almgren, and W. Brown, “Aggregation of hydrophobically end-capped poly(ethylene oxide) in aqueous solutions, fluorescence and light scattering studies,” Macromolecules 29, 2229–2243 (1996).
2.Aniansson, E. A. G. , S. N. Wall, M. Almgren, H. Hoffmann, I. Kielmann, W. Ulbricht, R. Zana, J. Lang, and C. Tondre, “Theory of the kinetics of micellar equilibria and quantitative interpretation of chemical relaxation studies of micellar solutions of ionic surfactants,” J. Phys. Chem. 80, 905–922 (1976).
3.Annable, T. and R. Ettelaie, “Effect of the association on the phase behavior of mixed solutions of hydrophobically modified and similar unmodified polymer,” J. Chem. Phys. 93, 899–919 (1996).
4.Annable, T. , R. Buscall, and R. Ettelaie, “Network formation and its consequences for the physical behavior of associating polymers in solution,” Colloids Surf., A 112, 97–116 (1996).
5.Annable, T. , R. Buscall, R. Ettelaie, and D. Whittlestone, “The rheology of solutions of associative polymers: Comparison of experimental behavior with transient network theory,” J. Rheol. 37, 695–726 (1993).
6.Attwood, D. and A. T. Florence, Surfactant Systems, Their Chemistry, Pharmacy and Biology (Chapman and Hall, New York, 1983).
7.Aubry, T. and M. Moan, “Rheological behavior of a hydrophobically associating water soluble polymer,” J. Rheol. 38, 1681–1692 (1994).
8.Cathebras, N. , A. Collet, M. Viguier, and J. F. Berret, “Synthesis and linear viscoelasticity of fluorinated hydrophobically modified ethoxlyated urethanes (F-HUER),” Macromolecules 31, 1305–1311 (1998).
9.Ferry, J. D., Viscoelastic Properties of Polymers, 3rd ed. (Wiley, New York, 1980).
10.Green, M. S. and A. V. Tobolsky, “A new approach to the theory of relaxing polymeric media,” J. Chem. Phys. 15, 80–89 (1946).
11.Hansen, F. K. , B. Nystrom, and H. Walderhaug, “Dynamic interaction and adsorption in systems of hydrophobically modified water-soluble polymers,” Macromol. Symp. 92, 345–354 (1995).
12.Jenkins, R. D.,“The fundamental thickening mechanism of associative polymers in latex systems: A rheological study,” Ph.D. thesis, Lehigh University, Bethlethem, PA, 1991.
13.Jenkins, R. D. , D. R. Bassett, C. A. Silebi, and M. S. El-Aasser, “Synthesis and Characterization of Model Associative Polymers,” J. Appl. Polym. Sci. 58, 209–230 (1995).
14.Jenkins, R. D. , C. A. Silebi, and M. S. El-Aasser, “Steady shear and linear viscoelastic properties of associative thickener solutions,” Polym. Mater. Sci. Eng. 61, 629–633 (1989).
15.Kaczmarski, J. P. and J. E. Glass, “Synthesis and solution properties of hydrophobically modified ethoxylated urethanes with variable oxyethylene spacer lengths,” Macromolecules 26, 5149–5156 (1993).
16.Kato, S. , H. Nomura, H. Honda, R. Zielinski, and S. Ikeda, “Ultrasonic relaxation study of the exchange process of surfactant monomer with micelle in aqueous solutions of alkyltrimethylammonium bromides,” J. Phys. Chem. 92, 2305–2310 (1988).
17.Kjoniksen, A. , B. Nystrom, and B. Lindman, “Dynamic viscoelasticity of gelling and nongelling aqueous mixture of ethyl(hydroxyethyl)cellulose and ionic surfactant,” Macromolecules 31, 1852–1858 (1998).
18.Lang, J. and R. Zana, “Chemical Relaxation Methods” in Surfactant Solutions: New Methods of Investigation, edited by R. Zana (Marcel Dekker, New York, 1987), pp. 405–444.
19.Le Meins J. F. , J. F. Tassin, and J. M. Corpart, “Optical behavior of an associating polymer under shear flow,” J. Rheol. 43, 1423–1436(1999).
20.Nyström, B. , H. Walderhaug, and F. K. Hansen, “Dynamic crossover effects observed in solutions of hydrophobically associating water-soluble polymers,” J. Phys. Chem. 97, 7743–7752 (1993).
21.Persson, K. , S. Abrahamsen, P. Stilbs, F. K. Hansen, and H. Walderhaug, “The association of urethane-polyethylene oxide (HEUR) thickeners, as studied by NMR self diffusion measurements,” Colloid Polym. Sci. 270, 465–469 (1992).
22.Petit-Agnely, F. and I. Iliopoulos, “Aggregation mechanism of amphiphilic associating polymers studied by and nuclear magnetic resonance,” J. Phys. Chem. B 103, 4803–4808 (1999).
23.Pham, Q. T. , W. B. Russel, J. C. Thibeault, and W. Lau, “Micellar solutions of associative triblock co-polymers: The relationship between Structure and Rheology,” Macromolecules 32, 5139–5146 (1999).
24.Rao, B. , Y. Uemura, L. Dyke, and P. M. Macdonald, “Self-diffusion coefficient of hydrophobic ethoxlyated urethane associating polymers using pulsed-gradient spin-echo nuclear magnetic resonance,” Macromolecules 28, 531–538 (1995).
25.Rosen, M. J., Surfactants and Interfacial Phenomena, 2nd ed. (Wiley, New York, 1989).
26.Schick, M. J., Nonionic Surfactant, Physical Chemistry (Marcel Dekker Inc., New York, 1987).
27.Semenov, A. N. , J.-F. Joanny, and A. R. Khokhlov, “Associating polymers: Equilibrium and linear viscoelasticity,” Macromolecules 28, 1066–1075 (1995).
28.Seng, W. P. , K. C. Tam, and R. D. Jenkins, “Rheological properties of model alkali-soluble associative (HASE) polymer in ionic and nonionic surfactant solutions,” Colloids Surf., A 154, 363–380 (1999).
29.Tam, K. C. , R. D. Jenkins, M. A. Winnik, and D. R. Bassett, “A structural model of hydrophobically modified urethane-ethoxlyate (HEUR) associative polymers in shear flows,” Macromolecules 31, 4149–4159 (1998).
30.Tanaka, F. and S. F. Edwards, “Viscoelastic properties of physically crosslinked networks Part 1. Nonlinear stationary viscoelasticity,” J. Non-Newtonian Fluid Mech. 43, 247–271 (1992).
31.Thuresson, K. , B. Lindman, and B. Nystrom, “Effect of hydrophobic modification of a nonionic cellulose derivation on the interaction with surfactants: Rheology,” J. Phys. Chem. B 101, 6450–6459 (1997).
32.Tirtaatmadja, V. , K. C. Tam, and R. D. Jenkins, “Effect of a nonionic surfactant on the flow dynamics of a model HASE associative polymer,” AIChE. J. 44, 2756–2765 (1998).
33.Vorobyova, O. , A. Yekta, M. A. Winnik, and W. Lau, “Fluorescent probe studies of the association in an aqueous solution of a hydrophobically modified poly(ethylene oxide),” Macromolecules 31, 8998–9007 (1998).
34.Walderhaug, H. , F. K. Hansen, S. Abrahamsen, K. Persson, and P. Stilbs, “Associative thickeners: NMR self-diffusion and rheology studies of aqueous solutions of hydrophobically modified poly(oxyethylene) polymers,” J. Phys. Chem. 97, 8336–8342 (1993).
35.Wang, Y. and M. A. Winnik, “Onset of aggregation of water-soluble polymeric associative thickeners: A fluorescence study,” Langmuir 6, 1437–1439 (1990).
36.Xu, B. , A. Yekta, and M. A. Winnik, “Viscoelastic properties in water of comb associative polymers based on poly(ethylene oxide),” Langmuir 13, 6903–6311 (1997a).
37.Xu, B. , A. Yekta, L. Li, Z. Masoumi, and M. A. Winnik, “The functionality of associative polymer networks: the association behavior of hydrophobically modified urethane-ethoxlyate (HEUR) associative polymers in aqueous solution,” Colloids Surf., A 112, 239–250 (1996).
38.Xu, B. , L. Li, A. Yekta, Z. Masoumi, S. Kanagalingam, M. A. Winnik, K. Zhang, and P. M. Macdonald, “Synthesis, characterization, and rheological behavior of polyethylene glycols end-capped with fluorocarbon hydrophobes,” Langmuir 13, 2447–2456 (1997b).
39.Yekta, A. , J. Duhamel, H. Adiwidjaja, P. Brochard, and M. A. Winnik, “Associating structure of telechelic associative thickeners in water,” Langmuir 9, 881–883 (1993a).
40.Yekta, A. , J. Duhamel, P. Brochard, H. Adiwidjaja, and M. A. Winnik, “A fluorescent probe study of micelle-like cluster formation in aqueous solutions of hydrophobically modified poly(ethylene oxide),” Macromolecules 26, 1829–1836 (1993b).
41.Yekta, A., T. Nivaggioli, S. Kanagalingam, B. Xu, Z. Masoumi, and M. A. Winnik, “Urethane-coupled poly(ethylene glycol) polymers containing hydrophobic end groups, NMR characterization as a step toward determining aggregation numbers in aqueous solution,” in Hydrophilic Polymers, Performance with Environmental Acceptability, edited by J. E. Glass (ACS, Washington DC, 1996), pp. 363–376.
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