References
- NLT-382- Evaluación de la adherencia entre capas de firme, mediante ensayos de corte. Normas del Laboratorio de Transporte del CEDEX (Centro de Estudios y Experimentación de Obras Públicas) del MITMA, España.
- Norma NLT-383/20 Evaluación de la resistencia, tenacidad y energía de rotura de las mezclas bituminosas mediante el ensayo FENIX. Normas del Laboratorio de Transporte del CEDEX (Centro de Estudios y Experimentación de Obras Públicas) del MITMA, España.
- prEN12697-48 Bituminous mixtures - Test methods - Part 48: Interlayer Bonding. European Standard.
- UNE EN13108-9 Bituminous mixtures - Material specifications - Part 9: Asphalt for Ultra-Thin Layer (AUTL). European Standard.
- Arellano, M., et al., 2014. Austin districts guidelines on the use of thin surface mixes. Texas Department of Transportation.
- Bellanger, J., Brosseaud, Y., and Gourdon, J.L, 1992. Thinner and thinner asphalt layers for the maintenance of French roads. Transportation Research Record, 1334, 9–11.
- Chen, D.H., and Scullion, T, 2015. Very thin overlays in Texas. Construction and Building Materials, 95, 108–116. doi:10.1016/j.conbuildmat.2015.07.157.
- Collop, A. C., et al., 2009. Shear bond strength between asphalt layers for laboratory prepared samples and field cores. Construction and Building Materials, 23 (6), 2251–2258.
- Destrée, A., De Visscher, J., and Vanelstraete, A., 2016. Field study to evaluate different pre-normative interlayer adhesion tests. In Proceedings of the 6th Eurasphalt & Eurobitume Congress (Vol. 11, pp. 1–3).
- Gardziejczyk, W, 2016. The effect of time on acoustic durability of low noise pavements – the case studies in Poland. Transportation Research Part D: Transport and Environment, 44, 93–104. doi:10.1016/j.trd.2016.02.006.
- Geng, L., et al., 2017. Research on performance of a dense graded ultra-thin wearing course mixture. Applied Sciences, 7 (8), doi:10.3390/app7080800.
- Kandhal, Prithvi S., and Lockett, L., 1997. Construction and Performance of Ultrathin Asphalt Friction Course, NCAT Report 97-5, National Center for Asphalt Technology, Auburn University, September 1997.
- Li, W., Han, S., and Huang, Q, 2020. Performance of noise reduction and skid resistance of durable granular ultra-thin layer asphalt pavement. Materials, 13 (19), 4260.
- Liu, Z.M., et al., 2019. Laboratory evaluation of performance of porous ultra-thin overlay. Construction and Building Materials, 204, 28–40. doi:10.1016/j.conbuildmat.2019.01.147.
- Liu, H., et al., 2020. Influence of the skid resistance of ultrathin wearing course with various types of asphalt binders. Advances in Materials Science and Engineering, 2020. doi:10.1155/2020/7162520.
- Moreno-Navarro, F., et al., 2017. Structural analysis of polymer modified bituminous materials in the rehabilitation of light-medium traffic volume roads. Construction and Building Materials, 156, 621–631.
- Moreno-Navarro, F., et al., 2018. Fatigue cracking in asphalt mixtures: the effects of ageing and temperature. Road Materials and Pavement Design, 19 (3), 561–570.
- Qian, J.S., et al., 2018. International roughness index prediction model for thin hot mix asphalt overlay treatment of flexible pavements. Transportation Research Record, 2672 (40), 7–13. doi:10.1177/0361198118768522.
- Sandberg, U., et al., 2011. Optimization of thin asphalt layers: state-of-the-art review. ERA-NET Road Project, European Commission – FP7, 7th Framework Programme.
- Sol-Sánchez, M., et al., 2017. Evaluating the mechanical performance of Very Thin Asphalt Overlay (VTAO) as a sustainable rehabilitation strategy in urban pavements. Materiales de Construccion, 67 (327), e132.
- Uhlmeyer, J. S., Pierce, L. M., and Weston, J. T., 2003. Novachip®. Post Construction/Performance Report, Experimental Feature WA01-01, Washington DOT, Olympia, WA.
- Vuye, C., Bergiers, A., and Vanhooreweder, B, 2016. The acoustical durability of thin noise reducing asphalt layers. Coatings, 6 (2), 21. doi:10.3390/coatings6020021.
- Watson, D.E., and Heitzman, M., 2014. Thin asphalt concrete overlays: a synthesis of highway practice, National Cooperative Highway Research Program (NCHRP) SYNTHESIS 464, WASHINGTON, D.C., USA.
- Yu, J., et al., 2020. Design and performance of high-toughness ultra-thin friction course in south China. Construction and Building Materials, 246, 118508. doi:10.1016/j.conbuildmat.2020.118508.