_____________________________________________________________________________Bibliography
124
Bibliography
Chapter 1
1. J. Ferry, Viscoelastic Properties of Polymers, Third Edition, John Wiley & Sons, New York, 1980.
2. J. M. Dealy, K. F. Wissbrun, Melt Rheology and its role in Plastic Processing, Kulwer Academic Publishers, 1999.
3. D. J. Plazeck, I. Echererria, Don’t cry for me Charlie Brown, or, with compliance comes comprehension, J Rheol (2000) 44:831-41.
4. D. Sybilski, Transport. Res. Record 1535 (1996) 15–21.
5. Y. Hu Ray, H.U. Bahia, H. Zhai, M. Zeng, TRB Preprint, 80th Annual Meeting, Washington, DC, Jan. 7–11, 2001.
6. Z. Vlachovicova, C. Wekumbura, J. Stastna, L. Zanzotto, Creep characteristics of asphalt modified by radial styrene-butadiene-styrene copolymer. Submitted to Building and Construction Materials.
7. G. Polacco, J. Stastna, Z. Vlachovicova, D. Biondi, L. Zanzotto, Temporary networks in polymer modified asphalts, Polymer Engineering and Science 2004 44(12), 2185.
8. P. J. Carreau, Ph.D. Thesis, University of Wisconsin, 1969.
9. American Association of State Highway and Transportation Officials, Standard Specification for performance graded Asphalt Binders M30, 2001.
10. Z. Vlachovicova, Rheological Investigation of Different Asphalt Binders, Ph.D.
Thesis, University of Calgary, June 2006.
11. B. Gross, Matematical Structure of the Theories of Viscoelasticity, Hermann, Paris, 1953.
12. L. S. Gradshteyn, L. M. Rydzhik, Tables of Integrals, Series and Products, Academic Press, New York, 1980.
13. D. W. Christensen Jr, D. A. Anderson, Proc. of AAPT 1992 61, 67.
14. J. Stastna, L. Zanzotto, O.J. Vacin, Appl Rheol 2000 10, 134.
15. B. Bernstein, E. Kersey, L. Zapas, Trans. Soc. Rheol. 7, 391, 1963.
_____________________________________________________________________________Bibliography
125 16. A.S. Lodge, Elastic Liquids, Academy Press, New York, 1964.
17. A.S. Lodge Trans. Faraday Soc. 52:120, 1956.
18. M. Doi, S. F. Edwards, The theory of polymer dynamics, Oxford University press:
Oxford, 1986.
19. K. Osaki, On the Damping Function of Shear Relaxation Modulus for Entangled Polymers, Rheol Acta, 1993, 32, 429.
Chapter 2
20. Asphalt institute superpave series no.1 (SP-1).
21. Petersen, Transportation Research Record 999, 1984.
22. ASTM Specification D 4124.
23. Association of Asphalt Paving Technologies, Volume 31, 1962.
24. J. W. Bunger, Norman C. Li, Chemistry of Asphaltenes, American Chemical Society, Washington D. C., (1981).
25. E. J. Barth, Asphalt Science and Technology, Gordon and Breach Science Publishers, (1962).
26. Shell bitumen handbook, 1990.
27. Peterson et al., SHRP-A-367, 1994.
28. European specification EN 13399.
29. G. Airey: Rheological properties of SBS polymer modified road bitumens, Fuel 82 (2003).
30. A.H. Fawcett, T. McNally, Polymer, 41, 5315, 2000.
31. Ulmann’s Encyclopaedia of Industrial Chemistry, Wiley VCH.
32. M.E. Nunn, Structural Design of Long-Life Flexible Roads for Heavy Traffic.
Proceedings of Institution of Civil Engineers-Transport, No.129, pp. 126-133, 1998.
33. D. A. Anderson, T. W. Kennedy, Development of SHRP Binder Specification.
Journal of the Association of Asphalt Paving Technologies, Volume 62, pp. 481-501, 1993.
_____________________________________________________________________________Bibliography
126 34. H. U. Bahia, D. L. Hanson, M. Zeng, H. Zhai, M. A. Khatri, R. M. Anderson, Characterization of Modified Asphalt Binders in Superpave Mix Design, Report No. 459, National Cooperative Highway Research Program, National Academy Press, Washington, D.C., 2001.
35. M. G. Bouldin, R. Dongre, J. D’Angelo, Proposed Refinement of Superpave High-Temperature Specification Parameter for Performance-Graded Binders, Transportation Research Record 1766, Paper No. 01-3178.
36. A. Shenoy, Refinement of the Superpave Specification Parameter for Performance Grading of Apshalt, Journal of Transportation Engineering, American Society of Civil Engineers, Volume 127, No.5, pp. 357-362, Sept/Oct 2001.
37. D. Sybilski, Zero-Shear Viscosity of Bituminous Binder and Its Relation to Bituminous Mixtures Rutting Resistance, Transportation Research Record 1535, TRB, pp. 15-21, 1996.
38. M. C. Phillips, C. Robertus, Binder Rheology and Asphaltic Pavement Permanent Deformation; The Zero-shear Viscosity, 1st Eurasphalt and Eurobitume Congress, Strasbourg, 1996, Paper No. 5.134.
39. C. Desmazes, M. Lecomte, D. Lesueur, and M. Phillips, A Protocol for Reliable Measurement of Zero-shear-viscosity in Order to Evaluate Anti-rutting Performance of Binders, Proceedings of 2nd Eurasphalt & Eurobitume Congress, Barcelona, Spain, Book 1, pp. 202-211, 2000.
Chapter 3
40. TableCurve 2D v4.0, AISN Software Inc.,1996.
41. Hudson, D.J. Statistics. CERN, Geneva, 1964.
42. Kohlrausch, F.; Pogg ANN Phys 1876, 8, 337.
43. G. Polacco, J. Stastna, P. Michalica, D. Biondi, M. Cantù, L. Zanzotto, Memory functions in polymer modified asphalts. Submitted to J Appl Polym Sci.
_____________________________________________________________________________Bibliography
127 Chapter 4
44. A. Muscente, Reologia e stabilità di miscele bitume SEBS, tesi di laurea specialistica, Università di Pisa, 2005.
45. T.L.J. Wasage, M. Cantù, J. Stastna, G. Polacco and L. Zanzotto, The Role of Viscosity in Dynamic Creep Tests in Conventional, Oxidized and Polymer Modified Asphalts. Submitted to the 86th Annual meeting of TRB.
Washington D.C.
46. SYSTAT Software Inc. Richmond CA, 2002.
47. R.Renka, ACM Transactions on Mathematical Software 1988, 14(2), 139.