References
- Ahmed, E.I., et al., 2012. Effect of warm mix additive's and dispersants on asphalt rheological, aging, and failure properties. Construction and Building Materials, 37, 493–498.
- Alcazar-Vara, L.A. and Buenrostro-Gonzalez, E., 2011. Characterization of the wax precipitation in mexican crude oils. Fuel Processing Technology, 92 (12), 2366–2374.
- Bern, P.A., Withers, V.R., and Cairns, R.J., 1980. Wax deposition in crude oil pipelinesed. European offshore technology conference and exhibition.
- Claudy, P., et al., 1992. Characterization of asphalts cements by thermomicroscopy and differential scanning calorimetry: Correlation to classic physical properties. Fuel Science and Technology International, 10 (4–6), 735–765.
- Da Silva, J.a.L. and Coutinho, J.A., 2004. Dynamic rheological analysis of the gelation behaviour of waxy crude oils. Rheologica Acta, 43, 433–441.
- Ding, H., et al., 2022a. Effects of crystalline wax and asphaltene on thermoreversible aging of asphalt binder. International Journal of Pavement Engineering, 23 (11), 3997–4006.
- Ding, H.B., et al., 2022b. Direct observation of crystalline wax in asphalt binders by variable-temperature polarizing microscope. Journal of Materials in Civil Engineering, 34 (10), 04022244.
- Ding, H.B. and Hesp, S.a.M., 2020. Quantification of crystalline wax in asphalt binders using variable-temperature Fourier-transform infrared spectroscopy. Fuel, 277, 118220.
- Ding, H.B. and Hesp, S.a.M.,, 2021. Balancing the use of wax-based warm mix additives for improved asphalt compaction with long-term pavement performance. ACS Sustainable Chemistry & Engineering, 9 (21), 7298–7305.
- Edwards, Y. and Isacsson, U., 2005. Wax in bitumen: part 1—classifications and general aspects. Road materials and pavement design, 6 (3), 281–309.
- Gamarra, A. and Ossa, E., 2018. Thermo-oxidative aging of bitumen. International journal of pavement engineering, 19 (7), 641–650.
- Guo, X.H., et al., 2006. Effect of cooling rate on crystallization of model waxy oils with microcrystalline poly(ethylene butene). Energy & Fuels, 20 (1), 250–256.
- Hamouda, A. and Viken, B., 1993. Wax deposition mechanism under high-pressure and in presence of light hydrocarbonsed. SPE international symposium on oilfield chemistry.
- Hurley, G.C. and Prowell, B.D., 2005. Evaluation of sasobit® for use in warm mix asphalt. Auburn: National Centre for Asphalt Technology.
- Japper-Jaafar, A., Bhaskoro, P., and Mior, Z., 2016. A new perspective on the measurements of wax appearance temperature: Comparison between DSC, thermomicroscopy and rheometry and the cooling rate effects. Journal of Petroleum Science and Engineering, 147, 672–681.
- Jennings, D.W. and Weispfennig, K., 2005. Effects of shear and temperature on wax deposition: Coldfinger investigation with a gulf of mexico crude oil. Energy & Fuels, 19 (4), 1376–1386.
- Karan, K., Ratulowski, J., and German, P., 2000. Measurement of waxy crude properties using novel laboratory techniquesed. SPE annual technical conference and exhibition.
- Kasumu, A.S., Arumugam, S., and Mehrotra, A.K., 2013. Effect of cooling rate on the wax precipitation temperature of “waxy” mixtures. Fuel, 103, 1144–1147.
- Kheradmand, B., et al., 2014. An overview of the emerging warm mix asphalt technology. International Journal of Pavement Engineering, 15 (1), 79–94.
- Kim, Y.R., Kim, N., and Khosla, N.P., 1992. Effect of aggregate type and gradation on fatigue and permanent deformation of asphalt concrete. ASTM STP, 1147, 310–328.
- Kok, M.V., et al., 1996. Comparison of wax appearance temperatures of crude oils by differential scanning calorimetry, thermomicroscopy and viscometry. Fuel, 75 (7), 787–790.
- Lee, D.H.-S., et al., 2013. Laboratory evaluation and field implementation of polyethylene wax-based warm mix asphalt additive in USA. International Journal of Pavement Research Technology, 6 (5), 547–553.
- Leontaritis, K.J., 1996. The asphaltene and wax deposition envelopes. Fuel Science & Technology International, 14 (1–2), 13–39.
- Li, H.Y., et al., 2020. Influence of asphaltene on wax deposition: Deposition inhibition and sloughing. Fuel, 266, 117047.
- Lu, X., et al., 2004. Microstructure of wax crystals in bitumen. Eurasphalt & Eurobitume Congress, 1–11.
- Lu, X.H., et al., 2005. Wax morphology in bitumen. Journal of Materials Science, 40 (8), 1893–1900.
- Lu, X.H., and Isacsson, U., 2002. Effect of ageing on bitumen chemistry and rheology. Construction and Building Materials, 16 (1), 15–22.
- Morea, F., Marcozzi, R., and Castano, G., 2012. Rheological properties of asphalt binders with chemical tensoactive additives used in warm mix asphalts (wmas). Construction and Building Materials, 29, 135–141.
- Paso, K., Kallevik, H., and Sjoblom, J., 2009. Measurement of wax appearance temperature using near-infrared (nir) scattering. Energy & Fuels, 23 (10), 4988–4994.
- Qiu, Y., et al., 2022. Measurement and thermodynamic modeling of wax precipitation in asphalt binder. Materials & Design, 221, 110957.
- Roenningsen, H.P., et al., 1991. Wax precipitation from north sea crude oils: 1. Crystallization and dissolution temperatures, and newtonian and non-newtonian flow properties. Energy & Fuels, 5 (6), 895–908.
- Rubio, M.C., et al., 2012. Warm mix asphalt: an overview. Journal of Cleaner Production, 24, 76–84.
- Sanchez Alonso, E., et al., 2011. Sustainable asphalt mixes: use of additives and recycled materials.
- Vaitkus, A., et al., 2009. Analysis and evaluation of possibilities for the use of warm mix asphalt in lithuania. Baltic Journal of Road and Bridge Engineering, 4 (2), 80–86.
- Zhang, H., et al., 2021. Determining the sustainable component of wax-based warm mix additives for improving the cracking resistance of asphalt binders. ACS Sustainable Chemistry & Engineering, 9 (44), 15016–15026.
- Zhang, H.P., et al., 2022. Chemical modification of waxes to improve the compatibility with asphalt binders. Acs Sustainable Chemistry & Engineering, 10 (33), 10908–10921.
- Zhao, Y.S., et al., 2015. Utilization of DSC, NIR, and NMR for wax appearance temperature and chemical additive performance characterization. Journal of Thermal Analysis and Calorimetry, 120 (2), 1427–1433.