Poly(ethylene Oxide) × polyacrylamide. Which one is more efficient to promote drag reduction in aqueous solution and less degradable?

Journal of Applied Polymer Science

Volumn 110, Issue 3, 2008, Pages 1844-1850

  Bizotto, Vanessa C ^a   Sabadini, Edvaldo ^a  

^a UNIVERSITY OF CAMPINAS   (Brazil)

Author keywords

Drag reduction; ; Kinetics of polymer degradation; ; Poly(ethylene oxide); ; Polyacrylamide

Indexed keywords

ABS RESINS; ARCHITECTURAL ACOUSTICS; ASSOCIATIVE STORAGE; CONCENTRATION (PROCESS); DEGRADATION; DRAG; DRAG REDUCTION; ETHYLENE; FLUID DYNAMICS; FLUID MECHANICS; MECHANICAL STABILITY; PNEUMATIC DRIVES; POLYETHYLENE GLYCOLS; POLYETHYLENE OXIDES; PULSE AMPLITUDE MODULATION; SOLUTIONS; THEOREM PROVING; TURBULENCE; TURBULENT FLOW;

AQUEOUS SOLUTIONS; DEGRADATION KINETICS; ETHYLENE OXIDE; FLEXIBLE POLYMERS; HYDRODYNAMIC DRAG; KINETICS OF POLYMER DEGRADATION; MECHANICAL DEGRADATION; POLY(ETHYLENE OXIDE); POLYACRYL AMIDES; POLYACRYLAMIDE; POLYMER CHAINS; POLYMER CONCENTRATIONS; POLYMER ENTANGLEMENT; REDUCTION CONDITIONS;

POLYMERS;

CONCENTRATION; HYDRODYNAMICS; MECHANICAL PROPERTY; POLYACRYLAMIDE; POLYETHYLENE OXIDE; POLYMER SOLUTION;

EID: 53849089287     PISSN: 00218995     EISSN: 10974628     Source Type: Journal    
DOI: 10.1002/app.28803     Document Type: Article

References (36)

1. Virk, P. S.; Merrill, E. W.; Mickley, H. S.; Smith, K. A.; Mollo-Christensen, E. L. J Fluid Mech 1967, 30, 305.
2. Leuchtag, H. R. Phys Today 1978, 31, 17.
3. McCormick, C. L.; Hester, R. D.; Morgan, S. E.; Safieddine, A. M. Macromolecules 1990, 23, 2132.
4. Bailey, F. E.; Koleske, V. J., Eds. Polyethylene oxide); Academic Press: New York, 1976.
5. Figueredo, R. C. R.; Sabadini, E. Colloids Surf A 2003, 215, 77.
6. Kulicke, W. M.; Grägem, H.; Kötter, M. Drag Reduction Phenomenon with Special Emphasis on Homogenous Polymer Solutions---Polymer Characterization/Polymer Solutions; Springer-Verlag: Berlin, 1989.
7. Sellin, R. H. J.; Hoyt, J. W.; Scrivener, O. J. Hydraul Res 1982, 20, 29.
8. Bonn, D.; Couder, Y.; van Dam, P. K; Douady, S. Phys Rev E 1993, E47, R28.
9. Kim, O.-K.; Choi, L.-S.; Long, T.; Yoon, T. H. Polym Commun 1988, 29, 168.
10. Peterlin A. Nature 1970, 227, 598.
11. Kim, O.-K.; Choi, L. S.; Long, T.; McGrath, K.; Armistead, J. P.; Yoon, T. H. Macromolecules 1993, 26, 379.
12. Tabor, M.; de Gennes, P. G. Europhys Lett 1986, 2, 519.
13. Shenoy, A. V. Colloids Polym Sci 1984, 262, 319.
14. Sabadini, E.; Alkschbirs, M. I. J Phys Chem B 2004, 108, 1183.
15. Sabadini, E.; Alkschbirs, M. I. Exp Fluids 2002, 33, 242.
16. Nakken, T.; Tande, M.; Elgsaeter, A. J Non-Newtonian Fluid Mech 2001, 97, 1.
17. Yi, M.-K.; Kim, C. J Non-Newtonian Fluid Mech 1997, 72, 113.
18. Groisman, A.; Steinberg, V. Phys Rev Lett 1996, 77, 1480.
19. Taylor, G. I.; Proc R Soc London 1936, A157, 546.
20. Kalashnikov, V. N. J Non-Newtonian Fluid Mech 1998, 75, 209.
21. Kalashnikov, V. N. J Non-Newtonian Fluid Mech 2002, 103, 105.
22. Koeltzsch, K.; Qi, Y.; Brodkey, R. S.; Zakin, J. L. Exp Fluids 2003, 34, 515.
23. Kim, C. A.; Lee, K. K.; Choi, H. J.; Jhon, M. S. Polymer 2000, 41, 7611.
24. Cowan, M. E.; Hester, R. G.; McCormick, C. L. J Appl Polym Sci 2001, 82, 1211.
25. Vanapalli, S. A.; Ceccio, S. L.; Solomon, M. J. Proc Nat Acad Sci USA 2006, 103, 1660.
26. Kenis, P. R. J Appl Polym Sci 1971, 15, 607.
27. Little, R. C; Wiegard, M. I Appl Polym Sci 1970, 14, 409.
28. de Gennes, P. G. Introduction to Polymer Dynamics; Cambridge University Press: UK, 1990.
29. Fischer, D. H.; Rodriguez, F. J Appl Polym Sci 1971, 15, 2975.
30. Vlachogiannis, M; Liberatore, M. W.; McHugh, A. J.; Han-ratty, T. J Phys Fluids 2003, 15, 3786.
31. Weast, R. C, Ed. Handbook of Chemistry and Physics; CRC Press: Boca Raton, 1989.
32. Zakin, J. L.; Hunston, D. L. J Appl Polym Sci 1978, 22,1763.
33. Brostow, W.; Lobland, H. E. H.; Reddy, T.; Singh, R. P.; White, L. J Mater Res 2007, 22, 56.
34. Nakano, A.; Minoura, Y. J Appl Polym Sci 1975, 19, 2119.
35. Nakano, A.; Minoura, Y. Macromolecules 1975, 8, 677.
36. Horn, A. F.; Merril, E. W. Nature 1984, 312, 140.