References
- AASHTO. T 283, 2007. Standard method of test for resistance of compacted hot mix asphalt (HMA) to moisture-induced damage. AASHTO Standards, T 283, Washington, DC.
- Akbulut, H. and Guler, C., 2007. Use of aggregates produced from marble quarry waste in asphalt pavements. Building and Environment, 42 (5), 1921–1930.
- Al-Hadidy, A.I. and Yi-qiu, T., 2009. Effect of polyethylene on life of flexible pavements. Construction and Building Materials, 23 (3), 1456–1464.
- Alvarez, A.E., Ovalles, E., and Caro, S., 2012. Assessment of the effect of mineral filler on asphalt–aggregate interfaces based on thermodynamic properties. Construction and Building Materials, 28 (1), 599–606.
- Arabani, M. and Azarhoosh, A.R., 2012. The effect of recycled concrete aggregate and steel slag on the dynamic properties of asphalt mixtures. Construction and Building Materials, 35 (10), 1–7.
- Arabani, M., et al., 2013. Laboratory evaluation of recycled waste concrete into asphalt mixtures. International Journal of Pavement Engineering, 14 (6), 531–539.
- ASTM, D 1074, 2000. Annual book of ASTM standards: Road and paving materials. Vol. 04.03, West Conshohocken, PA.
- Bezerra, U.T., et al., 2011. Production of filler aggregate from waste of bivalves mollusks shells. Journal of Civil Engineering and Architecture, 5 (4), 363–367.
- Bouchard, G.P., 1992. Effects of aggregate absorption and crush percentage on bituminous concrete, effect of aggregates and mineral fillers on asphalt mixtures performance. In: R.C. Meininger, ed. ASTM STP 1147. Philadelphia, PA: American Society for Testing and Material.
- Chen, M., et al., 2011a. Utilization of recycled brick powder as alternative filler in asphalt mixture. Construction and Building Materials, 25 (4), 1532–1536.
- Chen, M., Lin, J., and Shaopeng, W., 2011b. Potential of recycled fine aggregates powder as filler in asphalt mixture. Construction and Building Materials, 25 (10), 3909–3914.
- Chui-Te, C., 2008. Use of ground tire rubber in asphalt pavements: field trial and evaluation in Taiwan. Resources, Conservation and Recycling, 52 (1), 522–532.
- Fritschy, G. and Papirer, E., 1979. Dynamic-mechanical properties of a bitumen–silica composite: I. Relation with filler content and bitumen–silica interfacial area. Rheol Acta, 18 (6), 749–755.
- Garcia, I., et al., 2009. Tests on mortars and concrete made with seashells as aggregate. Case study in Mauritania. In: 11th international conference on non-conventional materials and technologies, Emerald Group Publishing Limited, Howard House Wagon Lane Bingley BD16 1WA, UK.
- Gugiuman, G.H., 1996. The building of the roads. Bucharest: Technical Publishing House.
- Jianying, Y., Peiliang, C., and Shaopeng, W., 2009. Investigation of the properties of asphalt and its mixtures containing flame retardant modifier. Construction and Building Materials, 23 (6), 2277–2282.
- Kandhal, P.S., Parker, F., and Mallick, R.B., 1977. Aggregate tests for hot mix asphalt: state of the practice. National Center for Asphalt Technology (NCAT) Report, 97–06.
- Karasahin, M. and Terzi, S., 2007. Evaluation of marble waste dust in the mixture of asphalt concrete. Construction and Building Materials, 21 (3), 616–620.
- Kim, S., 2003. Mechanistic Evaluation of mineral fillers on fatigue resistance and fundamental material characteristics. Paper submitted to the Transportation Research Board for Presentation and Publication at the annual meeting in Washington, DC.
- Lottman, R.P., 2001. Predicting moisture-induced damage to asphaltic concrete. Washington, DC: Transportation Research Board. NCHRP Report 192.
- Moghadas Nejad, F., et al., 2012. Influence of using nonmaterial to reduce the moisture susceptibility of hot mix asphalt. Construction and Building Materials, 31 (6), 384–388.
- Monismith, L., 1994. Fatigue response of asphalt–aggregate mixer. Asphalt Research Program, Institute of Transportation Studies. Berkeley: University of California. SHRP-A-404.
- Nicoara, L. and Costescu, I., 1992. The building of the roads. Bucharest: Editorial Trefla.
- Roberts, F.L., et al., 1996. Hot mix asphalt materials, mixture design, and construction. 2nd ed. Lanham, MD: NAPA Education Foundation.
- Shu, X., Huang, B., and Vukosavljevic, D., 2008. Laboratory evaluation of fatigue characteristics of recycled asphalt mixture. Construction and Building Materials, 22 (7), 1323–1330.
- Uzun, I. and Terzi, S., 2012. Evaluation of andesite waste as mineral filler in asphaltic concrete mixture. Construction and Building Materials, 31 (6), 284–288.
- Witczak, M.W. and El-Basyouny, M.M., 2004. Calibration of fatigue cracking models for flexible pavements. National Cooperative Highway Research Program (NCHRP) APPENDIX II-1, Transportation Research Board of the National Academies, Washington, DC.
- Yamaguchi, K., Sasaki, I., and Nishizaki, I., 2005. Effects of film thickness, wavelength and carbon black on photodegradation of asphalt. Journal of the Japan Petroleum Institute, 48 (3), 150–155.