References
- Cai, J, 2019. Road performance of glass fiber ultra-thin overlay asphaltic mixture. Journal of Chang ‘an University (Natural Science Edition), 39 (05), 20–27. (in Chinese).
- Chen, Q, et al., 2018. Durability evaluation of road cooling coating. Construction and Building Materials, 190, 13–23.
- Chen, S, et al., 2019. Use of reacted and activated rubber in ultra-thin hot mixture asphalt overlay for wet-freeze climates. Journal of Cleaner Production, 232, 369–378.
- Chen, Qian, et al, 2022. Low-temperature mechanical properties of polyurethane-modified waterborne epoxy resin for pavement coating. International Journal of Pavement Engineering, 13, 1–13. https://doi.org/10.1080/10298436.2022.2099853
- Ding, L, et al., 2021. Development and performance research of new sensitive materials for microwave deicing pavement at different frequencies. Cold Regions Science and Technology, 181:103176.
- Ding, L, et al., 2021. Durability evaluation of easy compaction and high-durability ultra-thin overlay. Construction and Building Materials, 302, 124407.
- Ding, L, Wang, X, Zhang, M, et al., 2021. Morphology and properties changes of virgin and aged asphalt after fusion. Construction and Building Materials, 291, 123284.
- Geng, L, et al., 2017. Research on performance of a dense graded ultra-thin wearing course Mixture. APPL SCI-BASEL, 7(8):800.
- Han, L, et al., 2017. Effect of nano silica and pretreated rubber on the properties of terminal blend crumb rubber modified asphalt. Construction and Building Materials, 157, 277–291.
- Hu, Xiaodi, and Walubita, Lubinda F., 2015. Influence of asphalt-binder source on CAM mix rutting and cracking performance: a laboratory case study. International Journal of Pavement Research and Technology, 8 (6), 419.
- The Industry Standards of the People’s Republic of China, 2011. JTG E20- 2011, standard test methods of bitumen and bituminous mixture for highway engineering. Beijing: China Communications Press.
- Jiang, W, et al., 2020. Experimental study of the performance of porous ultra-thin asphalt overlay. International Journal of Pavement Engineering, (1):1–13.
- Kim, YK, and Lee, SW, 2013. Performance evaluation of bonded concrete overlay. Construction and Building Materials, 49, 464–470.
- Li, X, Yang, L, and Xing, X, 2019. Preparation and performance of the color ultra-thin overlay. Functional Materials, 50 (4), 4211–4216. (in Chinese).
- Liu, Z, et al., 2019. Asphalt mixture design for porous ultra-thin overlay. Construction and Building Materials, 217, 251–264.
- Liu, Z, et al., 2019. Laboratory evaluation of performance of porous ultra-thin overlay. Construction and Building Materials, 204, 28–40.
- Liu, A, et al., 2020. Study on properties of a new super thin layer Tom-10 high rubber power asphalt mixture. New Building Materials, 47 (11), 81–83. (in Chinese).
- Liu, F, et al., 2021. Performance evaluation of waterborne epoxy resin-SBR composite modified emulsified asphalt fog seal. Construction and Building Materials, 301, 124106.
- Liu, Y, et al., 2021. Preparation and performance of oxidized crumb rubber (OCR)/nano-SiO2 composite-modified asphalt. Construction and Building Materials, 279:122488.
- Liu, W, and Deng, J, 2019. Analysis of application effect of different easily compacting ultra-thin cover treatment schemes. China and Foreign Highway, 39 (03), 64–67. (in Chinese).
- López-Moro, FJ, et al., 2013. Microscopic analysis of the interaction between crumb rubber and bitumen in asphalt mixtures using the dry process. Construction and Building Materials, 48, 691–699.
- Park, Hee Mun, et al., 2009. Performance evaluation of a high durability asphalt binder and a high durability asphalt mixture for bridge deck pavements. Construction & Building Materials, 23, 219–225.
- Tian, J, et al., 2020. Determination of construction parameters of porous ultra-thin overlays based on laboratory compaction studies. Materials, 13(20):4496.
- Topal, A, et al., 2011. Evaluation of rheological and image properties of styrene-butadiene-styrene and ethylene-vinyl acetate polymer modified bitumens. Journal of Applied Polymer Science, 122 (5), 3122–3132.
- Walubita, Lubinda F., et al. Comparison of fatigue analysis approaches for two hot mix asphalt concrete (HMAC) mixtures. Report 0-4468-2. Texas Transportation Institute.
- Walubita, Lubinda F., et al., 2021. Correlating the asphalt-binder BBR test data to the HMA (ML-OT) fracture properties. Journal of Materials in Civil Engineering, 33 (9), 04021230.
- Wan, J, et al., 2018. Self-Healing property of ultra-thin wearing courses by induction heating. Materials, 11(8):1392.
- Wan, J, et al., 2019. Enhanced ice and snow melting efficiency of steel slag based ultra-thin friction courses with steel fiber. Journal of Cleaner Production, 236(Nov.1):117613.1-117613.11.
- Wu, K, and Zhang, X, 2006. Design of SMA-5 asphalt mixture for thin overlays. Journal of South China University of Technology (Natural Science Edition), 04, 43–46. (in Chinese).
- Yao, Y, Li, X, and Zhang, B, 2007. Integrative evaluation index system for preventive maintenance timing of asphalt pavement. Journal of Traffic and Transportation Engineering, 05, 48–53. (in Chinese).
- Ye, F, et al., 2009. Evaluation of shear performance of flexible waterproof-adhesive layer in concrete bridge pavement based on grey correlation analysis. Road Mater Pavement, 10 (SI), 349–360.
- Yu, J, et al., 2020. Design and performance of high-toughness ultra-thin friction course in south China. Construction and Building Materials, 246:118508.
- Yu, J, et al., 2020. High-toughness, ultra-thin friction course for the channel on the Zhuhai artificial island of the Hong Kong-Zhuhai-Macao Bridge. Journal of Tsinghua University (Science and Technology), 60 (01), 48–56. (in Chinese).
- Yu, L, et al., 2020. Study on microstructure influence mechanism to mechanical behavior of OGFC asphalt mixture. Can J Civil Eng, 47 (5), 506–515.
- Zhang, Jun, et al., 2015. Use of the MSCR test to characterize the asphalt binder properties relative to HMA rutting performance – a laboratory study. Construction and Building Materials, 94, 218–227.
- Zhang, Jun, et al., 2017. Impact of recycled asphalt materials on asphalt binder properties and rutting and cracking performance of plant-produced mixtures. Construction and Building Materials, 155, 654–663.