Coatings World - February 2017

REFERENCES

1. Smoluchowski, M.V., The Thermodynamics of Molecular Phenomena. Physik. Chim., 1917. 92: p. 124.

2. Collins, F.C. and G.E. Kimball, Diffusion-controlled reaction rates. Journal of Colloid Science, 1949. 4( 4): p. 425-437.

3. Noyes, R.M., Effects of diffusion rates on chemical kinetics.

Progr. in Reaction Kinetics 1961. 1: p. 129.

4. Rice, S.A. and C.H. Bamford, Diffusion-limited Reactions.

1985: Elsevier.

5. Ghoreishi, R., Y. Zhao, and G.J. Suppes, Reaction modeling of urethane polyols using fraction primary secondary and hin-dered-secondary hydroxyl content. Journal of Applied Polymer Science, 2014. 131( 12).

6. Zhao, Y., et al., Modeling reaction kinetics of rigid polyurethane foaming process. Journal of Applied Polymer Science,

2013. 130(2): p. 1131-1138.

7. Zhao, Y. and G.J. Suppes, Simulation of Catalyzed Urethane Polymerization: An Approach to Expedite Commercialization of Bio-based Materials. Catalysis Surveys from Asia, 2014.

18(2-3): p. 89-98.

8. Cavaco, L.I. and J.A. Melo, Polyurethane: Properties, structure and applications. Polyurethane: Properties, Structure and Applications. 2012: Nova Science Publishers, Inc. 1-162.

9. Alberty, R.A. and G.G. Hammes, Application of the Theory of Diffusion-controlled Reactions to Enzyme Kinetics. The Journal of Physical Chemistry, 1958. 62(2): p. 154-159.

10. Einstein, A., Über die von der molekularkinetischen Theorie der Wärme geforderte Bewegung von in ruhenden Flüssigkeiten suspendierten Teilchen. Annalen der Physik, 1905.

322( 8): p. 549-560.

11. von Smoluchowski, M., Zur kinetischen Theorie der Brownschen Molekularbewegung und der Suspensionen.

Annalen der Physik, 1906. 326( 14): p. 756-780.

12. Young, J.S. and C.N. Bowman, Effect of Polymerization Temperature and Cross-Linker Concentration on Reaction Diffusion Controlled Termination. Macromolecules, 1999.

32( 19): p. 6073-6081.

13. Guzmán, J.D., R. Pollard, and J.D. Schieber, Modeling of Diffusion Effects on Step-Growth Polymerizations.

Macromolecules, 2005. 38(1): p. 188-195.

14. O’Neil, G. A. and J.M. Torkelson, Modeling Insight into the Diffusion-Limited Cause of the Gel Effect in Free Radical Polymerization. Macromolecules, 1999. 32(2): p. 411-422.

15. Anseth, K.S., C.M. Wang, and C.N. Bowman, Kinetic evidence of reaction diffusion during the polymerization of multi(meth)acrylate monomers. Macromolecules, 1994. 27( 3): p. 650-655.

16. Al-Moameri, H.H., et al., Impact of Maximum Foam Reaction Temperature on Reducing Foam Shrinkage. RSC Advances, 2015.

17. Al-Moameri, H., et al., Simulation Blowing Agent Performance, Cell Morphology, and Cell Pressure in Rigid Polyurethane Foams. Industrial & Engineering Chemistry Research, 2016.

18. Al-Moameri, H., et al., Simulation of liquid physical blowing agents for forming rigid urethane foams. Journal of Applied Polymer Science, 2015: p. n/a-n/a.

19. Suppes, G.J., et al., Simulation of Urethane Reaction for Both Analytical Methods and Formulation Development, in Polyurethanes Technical Conference. 2013: Phoenix, AZ, United States.

20. Fu, Z. and G.J. Suppes, Group contribution modeling of viscosity during urethane reaction. Journal of Polymer Engineering, 2015. 35(1): p. 11-20.

21. Ando, T., Effect of Reaction Temperature on Polyurethane Formation in Bulk. Polym J, 1993. 25( 11): p.

1207-1209.

22. Kolodziej, P., C. W. Macosko, and W.E. Ranz, The influence of impingement mixing on striation thickness distribution and properties in fast polyurethane polymerization. Polymer Engineering & Science, 1982. 22( 6): p. 388-392.

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