Journal of Engineering and Applied Sciences
Year:
2017
Volume:
12
Issue:
22
Page No.
5990 - 5996
References
Airey, G.D., 2003. Rheological properties of styrene butadiene styrene polymer modified road bitumens. Fuel, 82: 1709-1719.
Direct Link | Auden, C.F., J.A. Sandoval, A. Jerez, F.J. Navarro and F.J.M. Boza
et al., 2008. Evaluation of thermal and mechanical properties of recycled polyethylene modified bitumen. Polym. Test., 27: 1005-1012.
Direct Link | Ekott, E.J. and E.J. Akpabio, 2011. Influence of asphaltene content on demulsifiers performance in crude oil emulsions. J. Eng. Appl. Sci., 6: 200-204.
Fang, C., R. Yu, S. Liu and Y. Li, 2013. Nanomaterials applied in asphalt modification: A review. J. Mater. Sci. Technol., 29: 589-594.
Direct Link | Fang, C., T. Li, Z. Zhang and X. Wang, 2008. Combined modification of asphalt by waste PE and rubber. Polym. Compos., 29: 1183-1187.
CrossRef | Direct Link | Fawcett, A., T. McNally, G. McNally, F. Andrews and J. Clarke, 1999. Blends of bitumen with polyethylenes. Polym., 40: 6337-6349.
Direct Link | Fini, E.H., P. Hajikarimi, M. Rahi and F.M. Nejad, 2015. Physiochemical, rheological and Oxidative aging characteristics of asphalt binder in the presence of mesoporous silica nanoparticles. J. Mater. Civ. Eng., 28: 04015133-04015133.
Direct Link | Fontes, L.P.T.L., G. Triches, J.C. Pais and P.A.A. Pereira, 2010. Evaluating permanent deformation in asphalt rubber mixtures. Construct. Build. Mater., 24: 1193-1200.
CrossRef | Lepe, A.P., F.M. Boza and C. Gallegos, 2005. Influence of polymer concentration on the microstructure and rheological properties of High-Density Polyethylene (HDPE)-modified bitumen. Energy Fuels, 19: 1148-1152.
CrossRef | Direct Link | Mahdi, L.M., R. Muniandy, R.B. Yunus, S. Hasham and E. Aburkaba, 2013. Effect of short term aging on organic montmorillonite nanoclay modified asphalt. Indian J. Sci. Technol., 6: 5434-5442.
Direct Link | Olutaiwo, A.O. and A.S. Adedimila, 2008. Review of advances in grading systems for asphalt binders in hot-mix asphalt pavements. J. Eng. Applied Sciences, 3: 322-331.
CrossRef | Direct Link | Oseghale, C.I. and F.O. Ebhodaghe, 2011. Asphaltene deposition and remediation in crude oil production: Solubility technique. J. Eng. Appl. Sci., 6: 258-261.
CrossRef | Direct Link | Ouyang, C., S. Wang, Y. Zhang and Y. Zhang, 2006. Improving the aging resistance of styrene-butadiene-styrene tri-block copolymer modified asphalt by addition of antioxidants. Polym. Degrad. Stab., 91: 795-804.
Direct Link | Petersen, J.C., 2000. Chemical composition of asphalt as related to asphalt durability. Dev. Pet. Sci., 40: 363-399.
Direct Link | Punith, V.S. and A. Veeraragavan, 2010. Behavior of reclaimed polyethylene modified asphalt cement for paving purposes. J. Mater. Civ. Eng., 23: 833-845.
Direct Link | Santagata, E., O. Baglieri, L. Tsantilis and D. Dalmazzo, 2012. Rheological characterization of bituminous binders modified with carbon nanotubes. Procedia Social Behav. Sci., 53: 546-555.
Direct Link | Sengoz, B. and G. Isikyakar, 2008. Evaluation of the properties and microstructure of SBS and EVA polymer modified bitumen. Constr. Build. Mater., 22: 1897-1905.
CrossRef | Direct Link | Yang, J. and S. Tighe, 2013. A review of advances of nanotechnology in asphalt mixtures. Procedia Social Behav. Sci., 96: 1269-1276.
Direct Link | Yao, H., Z. You, L. Li, C.H. Lee and D. Wingard
et al., 2012. Rheological properties and chemical bonding of asphalt modified with nanosilica. J. Mater. Civ. Eng., 25: 1619-1630.
Direct Link | Yu, R., C. Fang, P. Liu, X. Liu and Y. Li, 2015. Storage stability and rheological properties of asphalt modified with waste packaging polyethylene and organic montmorillonite. Appl. Clay Sci., 104: 1-7.
Direct Link | Yusoff, N.I.M., A.A.S. Breem, H.N. Alattug, A. Hamim and J. Ahmad, 2014. The effects of moisture susceptibility and ageing conditions on nano-silica/polymer-modified asphalt mixtures. Constr. Build. Mater., 72: 139-147.
Direct Link | Zhu, J., B. Birgisson and N. Kringos, 2014. Polymer modification of bitumen: Advances and challenges. Eur. Polym. J., 54: 18-38.
Direct Link |