The need of a better pavement performance has led researchers to develop new road materials, mainly for the asphalt layers, where the modification of the asphalt is the main example. This modification usually forces the use of polymers and fibers and, more recently, the use of crumb rubber from ground tires, where the modified asphalt is known as asphalt rubber. This asphalt rubber used in asphalt mixtures produces a superior performance if compared to the asphalt mixtures with conventional asphalt. The crumb rubber modification of the asphalts also presents a higher resistance to climatic effects, compared to the other binders.
Based on these assumptions, this paper presents the results of the evaluation of mechanical properties, related to the pavement performance, of asphalt rubber mixtures when compared to conventional mixtures. Two types of aggregate were used (pebble and diorites) and two binders utilized (asphalt rubber and conventional asphalt). The aging effect due to the asphalt mixture production and compaction was taken into account. The materials performance was evaluated through stiffness, fatigue and permanent deformation tests. Reflective cracking performance was also predicted using a mechanistic-empirical method.

Amirkhanian, S., Shen, J. “The Influence of Crumb Rubber Modifier (CRM) Microstructures on the High Temperature Properties of CRM Bindersâ€. The International Journal of Pavement Engineering, Vol. 6, 2005.

Antunes, M.L, Baptista, F., Eusébio, M.I., Costa, M.S., Miranda, C.V., “Characterization of Asphalt Rubber Mixtures for Pavement Rehabilitation Projects in Portugalâ€, Asphalt Rubber 2000 – Proceedings, Portugal, 2000, p.285-307.

Baker, T. E., Allen, T.M., Jenkins, D.V., Mooney, T., Pierce, L.M., Christie, R.A., Weston, J.T., “Evaluation of the Use of Scrap Tires in Transportation Related Applications in the State of Washingtonâ€, Washington State Department of Transportation, Washington, D.C., 2003.

Holleran, G., Reed, J.R., “Emulsification of asphalt rubber blendsâ€, Asphalt Rubber 2000 – Proceedings, Portugal, 2000, p. 383-409

Minhoto, Manuel J.C., Pais, Jorge C., Pereira, Paulo A.A.,Picado-Santos, Luís G., “Predicting Asphalt Pavement Temperature with a Three-Dimensional Finite Element Methodâ€, Journal of the Transportation Research Board, nº 1919, 2005, pp. 96-110.

Neto, S.A.D., Farias, M.M., Pais, J.C.,Pereira, P.A.A., “Influence of Crumb Rubber and Digestion Time on the Asphalt Rubber Bindersâ€, Road Materials and Pavement Design, vol 7, nº 2, 2006, p.

-148.

Sousa, J.B.; Craus, J., Monismith, C.L. Summary Report on Permanent Deformation in Asphalt Concrete. Strategic Highway Research Program. National Research Council, Washington, DC,

Sousa, J.B., Pais, J.C., Saim, R., Way, G.B., Stubstad, R,N, “Development of a Mechanistic Overlay Design Method Based on Reflective Cracking Conceptsâ€, Transportation Research

Board, 80th Annual Meeting, Washington D.C., January , 2002.

Visser, A.T.,Verhaeghe, B. “Bitumen-rubber: Lessons learnt in South Africaâ€. Proceedings of the Asphalt Rubber 2000 Conference. Vilamoura. Portugal. 2000.

Way, G.B. “OGFC meets CRM: Where the rubber meets the rubber: 15 years of durable successâ€. Proceedings of the Asphalt Rubber 2006 Conference. Palm Springs, USA. 2006.