References
- Akinnifesi, J. O., F. M. Adebiyi, and K. F. Olafisan. 2017. Structural characterization of asphaltenes derived from Nigerian bitumen using the X-ray diffraction technique. Petroleum Science and Technology 35(16):1667–72. doi:10.1080/10916466.2017.1356849.[
- Bajwa, G. S., C. Sammon, P. Timmins, and C. D. Melia. 2009. Molecular and mechanical properties of hydroxypropyl methylcellulose solutions during the sol: gel transition. Polymer 50(19):4571–6. doi:10.1016/j.polymer.2009.06.075.
- Cardoso, E. R., N. G. Pinto, A. P. Almeida1, D. Braz, R. C. Barroso, L. M. Motta, and R. T. Lopes. 2007. Characterization of Brazilian asphalt using X-ray diffraction. International Nuclear Atlantic Conference (INAC), Santos, SP, Brazil.
- Guma, T. N., P. B. Madakson, D. S. Yawas, and S. Y. Aku. 2012. X-ray diffraction analysis of the microscopies of some corrosion-protective bitumen coatings. International Journal of Modern Engineering Research 2:4387–95.
- Iran Management and Planning Organization 2011. Standard on Iran roads’ pavements design. Tehran, Iran: IMPO.
- Laukkanen, O. V., H. Soenen, H. H. Winter, and J. Seppälä. 2018. Low-temperature rheological and morphological characterization of SBS modified bitumen. Construction and Building Materials 179 :348–59. doi:10.1016/j.conbuildmat.2018.05.160.
- Nivitha, M. R., E. Prasad, and J. M. Krishnan. 2019. Transitions in unmodified and modified bitumen using FTIR spectroscopy. Materials and Structures 52(1):7.
- Pi, F., F. Kaneko, M. Iwahashi, M. Suzuki, and Y. Ozaki. 2011. Solid-state low temperature→ middle temperature phase transition of linoleic acid studied by FTIR spectroscopy. The Journal of Physical Chemistry B 115(19):6289–95. doi:10.1021/jp200760p.
- Rezaei, S., H. Ziari, and S. Nowbakht. 2016a. Low temperature functional analysis of bitumen modified with composite of nano-SiO2 and styrene butadiene styrene polymer. Petroleum Science and Technology 34(5):415–21. doi:10.1080/10916466.2016.1143841.
- Rezaei, S., H. Ziari, and S. Nowbakht. 2016b. High-temperature functional analysis of bitumen modified with composite of nano-SiO2 and styrene butadiene styrene polymer. Petroleum Science and Technology 34(13):1195–203. doi:10.1080/10916466.2016.1188112.
- Rezaei, S., M. Khordehbinan, S. M. R. Fakhrefatemi, S. Ghanbari, and M. Ghanbari. 2017. The effect of nano-SiO2 and the styrene butadiene styrene polymer on the high-temperature performance of hot mix asphalt. Petroleum Science and Technology 35(6):553–60. doi:10.1080/10916466.2016.1270301.
- Siesler, H. W. 1980. Infrared and Raman spectroscopy of polymers. Vol. 3 of Practical Spectroscopy. New York: Taylor & Francis Inc.
- Teltayev, B. B., E. D. Amirbayev, and B. S. Radovskiy. 2018. Viscoelastic characteristics of blown bitumen at low temperatures. Construction and Building Materials 189:54–61. doi:10.1016/j.conbuildmat.2018.08.200.
- Ziari, H., S. Nowbakht, S. Rezaei, and A. Mahboob. 2015. Laboratory investigation of fatigue characteristics of asphalt mixtures with steel slag aggregates. Advances in Materials Science and Engineering 2015:1. doi:10.1155/2015/623245.