REFERENCES
- AENOR. (2011). Métodos de ensayo para mezclas bituminosas en caliente. Parte 11: Determinación de la afinidad entre áridos y betún. UNE-EN 12697–11.
- Airey, G.D., Collop, A.C., Zoorob, S.E., and Elliot, R.C. (2008). The influence of aggregate, filler and bitumen on asphalt mixture moisture damage. Constr. Build. Mater. 22:2015–2024.
- ASTM International. (2005). Standard practice for effect of water on bituminous-coated aggregate using boiling water. ASTM D 3625–96.
- Button, J.W., and Epps, J.A. (1983). Evaluation of methods of mixing lime in asphalt paving mixtures. Texas Transportation Institute.
- Caro, S., Masad, E., Bhasin, A., and Little, D.N. (2008). Moisture susceptibility of asphalt mixtures, Part 1: mechanisms. Int. J. Pav. Eng. 9:81–88.
- Epps, J., Berger, E., and Anagnos, J.N. (2003). Treatments. Moisture Sensitivity of Asphalt Pavements: A National Seminar. San Diego, California, February 4–6.
- Hicks, R.G. (1991). Moisture damage in asphalt concrete. Transportation Research Board 175.
- Jo, M.-C., Tarrer, A.R., Jeon, Y.W., Park, S.J., and Yoon, H.H. (1997). Investigation of the effect of aggregate pretreatment with antistripping agents on the asphalt-aggregate bond. Pet. Sci. Technol. 15:245–271.
- Kiggundu, B.M., and Roberts, F.L. (1988). Stripping in HMA mixtures: state-of-the-art and critical review of test methods. NCAT Report 88–02.
- Kim, Y.-R., Pinto, I., and Park, S.-W. (2012). Experimental evaluation of anti-stripping additives in bituminous mixtures through multiple scale laboratory test results. Constr. Build. Mater. 29:383–393.
- Lesueur, D., Petit, J., and Ritter, H.-J. (2012) The mechanisms of hydrated lime modification of asphalt mixtures: a state-of-the-art review. Road Mater. Pav. Des. 14:1–16.
- Liu, Y., Apeagyei, A., Ahmad, N., Grenfell, J., and Airey, G. (2014). Examination of moisture sensitivity of aggregate–bitumen bonding strength using loose asphalt mixture and physico-chemical surface energy property tests. Int. J. Pav. Eng. 15:657–670.
- Lu, X., and Isacsson, U. (2002). Effect of ageing on bitumen chemistry and rheology. Constr. Build. Mater. 16:15–22.
- Paranavithana, S., and Mohajerani, A. (2006). Effects of recycled concrete aggregates on properties of asphalt concrete. Resour. Conserv. Recycl. 48:1–12.
- Pasandín, A.R., and Pérez, I. (2014). Effects of the asphalt penetration grade and the mineralogical composition on the asphalt-aggregate bond. Pet. Sci. Technol. 32:2730–2737.
- Pérez, I., Gallego, J., Toledano, M., and Taibo, J. (2010). Asphalt mixtures with construction and demolition debris. Proc. Instit. Civil. Engineers 163:165–174.
- Pérez, I., Pasandín, A.R., and Gallego, J. (2012a). Stripping in hot mix asphalt produced by aggregates from construction and demolition waste. Waste Manage. Res. 30:3–11.
- Pérez, I., Pasandín, A.R., and Medina, L. (2012b). Hot mix asphalt using C&D waste as coarse aggregates. Mater. Des. 36:840–846.
- Pérez, I., Toledano, M., Galego, J., and Taibo, J. (2007). Mechanical properties of hot mix asphalt made with recycled aggregates from reclaimed construction and demolition debris. Mater. Constr. 57 (285): 17–29.
- Qin, Q., Schabron, J.F., Boysen, R.B., and Farrar, M.J. (2014). Field aging effect on chemistry and rheology of asphalt binders and rheological predictions for field aging. Fuel 121:86–94.
- Zhu, Q., Zhou, C., and Wang, S.Y. (2014). The regeneration of aged SBS modified asphalt via re-reticulating SBS particles under gamma irradiation. Pet. Sci. Technol. 32:1490–1496.