Cohesion in crumb rubber modified bitumen

F. Pérez-Jiménez; R. Miró Recasens; A. Martínez; C. Martínez Laínez; A. Páez Dueñas

doi:10.3989/mc.2006.v56.i284.17

Authors

F. Pérez-Jiménez Laboratorio de Caminos. Universidad Politécnica de Cataluña. Barcelona
R. Miró Recasens Laboratorio de Caminos. Universidad Politécnica de Cataluña. Barcelona
A. Martínez Laboratorio de Caminos. Universidad Politécnica de Cataluña. Barcelona
C. Martínez Laínez Laboratorio de Caminos. Universidad Politécnica de Cataluña. Barcelona
A. Páez Dueñas Laboratorio de Caminos. Universidad Politécnica de Cataluña. Barcelona

DOI:

https://doi.org/10.3989/mc.2006.v56.i284.17

Keywords:

crumb rubber, bitumen, filler, cohesion, UCL method

Abstract

This article reports on a study of crumb rubber-mediated improvement in bitumen cohesion, analyzed with the UCL method. UCL, a procedure developed to characterize bituminous binders, evaluates the cohesion obtained by adding a certain amount of bitumen or bituminous mastic to a standard mix aggregate. This method was chosen because it can be used to assess bitumen containing crumb rubber added by either the wet or the dry mix process.
In the dry mix process crumb rubber is combined with the mix as if it were a fine aggregate; i.e., crumb rubber and binder are blended during mix manufacture, laying and compaction. In the wet mix process, the binder is blended with the crumb rubber prior to mixing with the aggregate; i.e., when added to the mix, it has already been modified. The effect of digesting this dry mixed material prior to use was also analyzed in the present study. A comparison of the dry (with and without digestion) and wet mix processes showed the latter to be more effective, particularly when the crumb rubber was blended with the binder via microscopic dispersion.

Downloads

Download data is not yet available.

References

(1) Kirk, J. van; Holleran, G.: “Reduced Thickness Asphalt Rubber Concrete Leads to Cost Effective Pavement Rehabilitation”, 1st International Conference World of Pavements, Sydney, 2000.
(2) Epps, J.: Uses of Recycled Rubber Tires in Highways. NCHRP Synthesis 198, Transportation Research Board, National Research Council, Washington DC, 1994.
(3) Hicks, R. G.; Lundy, J. R.; Lehy, R. B.; Hanson, D.; Epps, J.: Crumb rubber modifier in asphalt pavement-Summary of practices in Arizona, California and Florida. Report Nº FHWA-SA-95-056, Federal Highway Administration, Washington DC, 1995.
(4) Leto, M.; Salini, R.: “Study of recycled tyre rubber in asphalt concrete mixtures”, Proceedings of the Asphalt Rubber 2000, Vilamoura, Portugal (2000), pp. 341-357.
(5) Zboroswki, A.; Sotil, A.; Kaloush, K.: “Material characteristics of asphalt rubber mixtures”, 83th Transportation Research Board Annual Meeting, Washington DC, 2004.
(6) Kaloush, K.; Witczak, M.; Sotil, A.: “Laboratory evaluation of asphalt rubber mixtures using the dynamic modulus (E*) test”, 82th Transportation Research Board Annual Meeting, Washington DC (2003).
(7) Pérez-Jiménez, F.; Gordillo, J.: “Optimization of Porous Mixes Through the Use of Special Binders. Transportation Research Record”, Journal of the Transportation Research Board, No. 1265 (1990), National Research Council, Washington DC, pp. 59-68.
(8) Ruiz, A.; Alberola, R.; Pérez-Jiménez, F.; Sánchez, B.: “Porous Asphalt Mixtures in Spain Transportation Research Record”, Journal of the Transportation Research Board, No. 1265 (1990), National Research Council, Washington DC, pp. 87-94.
(9) Pérez-Jiménez, F.; Miró Recasens, R.: “Characterization procedure of Asphalt Binders with the Cántabro Test: UCL Method”, 5th Eurobitume Congress, Stockholm, Volume 1 (1993), pp. 209-213.
(10) Miró Recasens, R.: Metodología para la caracterización de ligantes asfálticos mediante el empleo del ensayo cántabro. PhD Thesis, Technical University of Catalonia, Barcelona, Spain (1994).
(11) Khalid, H. A.; Walsh, C. M.; Pérez-Jiménez, F.; Miró Recasens, R.: “Rheological and Mechanical Characterization of Aged and Unaged Porous Asphalt Binders”, Proceedings of the Institution of Civil Engineers, Transport, 129 (1998), pp. 240-246.
(12) Anderson, J. et al.: “Asphalt rubber laboratory properties related to type of process technology of crumb rubber”, Proceedings of Asphalt-Rubber Congress 2000, Vilamoura, Portugal (2000) pp. 361-370.
(13) Pérez-Jiménez, F.; Miró Recasens, R.: “Caractérisation mécanique de liants asphaltiques: méthode UCL”, Proceedings of the fifth RILEM Symposium MTBM, Lyon (1997), pp. 41-46.
(14) Ruiz, C.: Concentración Crítica de Filler, su Origen y Significado en la Dosificación de Mezclas Abiertas. Dirección de Vialidad de la Provincia de Buenos Aires, Publicación nº 11 (1960), Buenos Aires, Argentina.
(15) Dorfman, B.; Rivara, Y.: “Sobre la Utilización de Filler en las Mezclas Asfálticas en Caliente”, X Congreso Argentino de Vialidad y Tránsito. Buenos Aires (1985), pp. 467-484.