All Issue

2021 Vol.11, Issue 1

Scientific Paper

Viscosity evaluation of asphalt binders containing petroleum resin
Navid Hemmati1
,
Hyunhwan Kim2
,
Mithil Mazumder3
,
Soon-Jae Lee4*
,
Kyu Dong Jeong5
1Graduate Assistant, Department of Engineering Technology, Texas State University
2Assistant Professor, Department of Engineering Technology, Texas State University
3Lecturer, Department of Engineering Technology, Texas State University
4Professor, Department of Engineering Technology, Texas State University
5Senior Researcher, Korea Institute of Civil Engineering and Building Technology
*Corresponding Author
30 June 2021. pp. 1-14
PDF XML Citation
Abstract

This study presents an experimental evaluation of viscosity changes in asphalt binders containing petroleum resin. Petroleum resin (PE) as one of the tackifier polymers has been considered to conduct this viscosity measurement in asphalt binders. PG 64-22 and PG 76-22 asphalt binders were modified using three PE contents of 0%, 5% and 10%. The viscosity values of asphalt binders were measured at five testing temperatures of 120°C, 135°C, 150°C, 165°C and 180°C. The test results suggested that (1) at lower temperatures of 120°C and 135°C, the PE resulted in increasing the viscosity of asphalt binders, (2) at higher temperatures of 150°C, 165°C and 180°C, the PE addition seemed to show little effect on the viscosity behavior of binders, and (3) at relatively high temperature, the binder viscosity was so low that it was difficult to statistically verify the effect of PE.

Keywords
Petroleum resin
Viscosity
Rotational viscometer
References
1
Adedeji, A., Grünfelder, T., Bates, F.S., Macosko, C.W., Stroup-Gardiner, M. and Newcomb, D.E. (1996). “Asphalt modified by SBS triblock copolymer: structures and properties”, Polymer Engineering & Science, 36(12), pp. 1707-1723. 10.1002/pen.10567
2
Ali, A.W., Kim, H.H., Mazumder, M., Lee, M.S. and Lee, S.J. (2018). “Multiple Stress Creep Recovery (MSCR) characterization of polymer modified asphalt binder containing wax additives”, International Journal of Pavement Research and Technology, 11, pp. 774-788. 10.1016/j.ijprt.2018.05.001
3
Bates, R. and Worch, R. (1987). Engineering Brief No. 39, Styrene-butadiene rubber latex modified asphalt, Federal Aviation Administration, Washington, DC, Available from: http://www.faa.gov/arp/engineering/briefs/eb39.htm.
4
Becker, M.Y., Muller, A.J. and Rodriguez, Y. (2003). “Use of rheological compatibility criteria to study SBS modified asphalts”, Journal of Applied Polymer Science, 90(7), pp. 1772-1782. 10.1002/app.12764
5
Class, J.B. and Chu, S.G. (1985). “The viscoelastic properties of rubber-resin blends. I. The effect of resin structure”, Journal of Applied Polymer Science, 30(2), pp. 805-814. 10.1002/app.1985.070300229
6
Hnsloglu, S. and Agar, E. (2004). “Use of waste high density polyethylene as bitumen modifier in asphalt concrete mix”, Materials Letters, 58(3), pp. 267-271. 10.1016/S0167-577X(03)00458-0
7
Haddadi, S., Ghorbel, E. and Laradi, N. (2008). “Effects of the manufacturing process on the performances of the bituminous binders modified with EVA”, Construction and Building Materials, 22(6), pp. 1212-1219. 10.1016/j.conbuildmat.2007.01.028
8
Kim, H.H., Mazumder, M., Lee, M.S. and Lee, S.J. (2019). “Evaluation of High-Performance Asphalt Binders Modified with SBS, SIS, and GTR”, Advances in Civil Engineering, 2019, 2035954. 10.1155/2019/2035954
9
Kim, H.H., Mazumder, M., Lee, S.J. and Lee, M.S. (2019). “Effect of production process on performance properties of warm rubberized binders”, Journal of Traffic and Transportation Engineering (English Edition), 6(6), pp. 589-597. 10.1016/j.jtte.2018.04.004
10
Kim, Y.R., Little, D.N. and Lytton, R.L. (2003). “Fatigue and healing characterization of asphalt mixtures”, Journal of Materials in Civil Engineering, 15(1), pp. 75-83. 10.1061/(ASCE)0899-1561(2003)15:1(75)
11
King, G., King, H., Pavlovich, R.D., Epps, A.L. and Kandhal, P. (1999). “Additives in asphalt”, Journal of the Association of Asphalt Paving Technologists, 68, pp. 32-69
12
Lavin, P. (2003). Asphalt pavements: A practical guide to design, production and maintenance for engineers and 10.1201/9781482267716
13
architects. CRC Press, London: Spon.
14
Lee, S.J., Akisetty, C.K. and Amirkhanian, S.N. (2008). “The effect of crumb rubber modifier (CRM) on the performance properties of rubberized binders in HMA pavements”, Construction and Building Materials, 22(7), pp. 1368-1376. 10.1016/j.conbuildmat.2007.04.010
15
Li, G., Zhao, Y., Pang, S.S. and Huang, W. (1998). “Experimental study of cement-asphalt emulsion composite”, Cement and Concrete Research, 28(5), pp. 635-641. 10.1016/S0008-8846(98)00038-6
16
Mazumder, M., 2019. Characterization of crack sealant materials and implementation techniques. Dissertation (Ph. D.), Texas State University-San Marcos.
17
Mazumder, M., Kim, H. and Lee, S.J. (2016). “Performance properties of polymer modified asphalt binders containing wax additives”, International Journal of Pavement Research and Technology, 9(2), pp. 128-139. 10.1016/j.ijprt.2016.03.004
18
Metcalf, J.B., Gopalakrishnan, K. and Waters, M.D. (2000). An initial investigation of the use of a rubber waste (EPDM) in asphalt concrete mixtures, In Waste Management Series, Elsevier. 1, pp. 940-952. 10.1016/S0713-2743(00)80102-6
19
Mildenberg, L. (1993). “The Cyzicenes: A reappraisal”, American Journal of Numismatics (1989-), 5, pp. 1-12.
20
Ott, R.L. and Longnecker, M.T. (2015). An introduction to statistical methods and data analysis, Cengage Learning, USA.
21
Thodesen, C., Shatanawi, K. and Amirkhanian, S. (2009). “Effect of crumb rubber characteristics on crumb rubber modified (CRM) binder viscosity”, Construction and Building Materials, 23(1), pp. 295-303. 10.1016/j.conbuildmat.2007.12.007
22
Thompson, D.C. and Hoiberg, A.J., Eds. (1979) Bituminous Materials: Asphalt Tars and Pitches, Krieger Publishing Co., New York, NY, USA.
23
Vlachovicova, Z., Wekumbura, C., Stastna, J. and Zanzotto, L. (2007). “Creep characteristics of asphalt modified by radial styrene-butadiene-styrene copolymer”, Construction and Building Materials, 21(3), pp. 567-577. 10.1016/j.conbuildmat.2005.09.006
24
Yildirim, Y. (2007). “Polymer modified asphalt binders”, Construction and Building Materials, 21(1), pp. 66-72. 10.1016/j.conbuildmat.2005.07.007
25
Zhang, F. and Yu, J. (2010). The research for high-performance SBR compound modified asphalt“, Construction and Building Materials, 24(3), pp. 410-418. 10.1016/j.conbuildmat.2009.10.003
26
Zhang, H., Chen, Z., Xu, G. and Shi, C. (2018). “Evaluation of aging behaviors of asphalt binders through different rheological indices”, Fuel, 221, pp. 78-88. 10.1016/j.fuel.2018.02.087
27
Zhang, J., Yang, F., Pei, J., Xu, S. and An, F. (2015). “Viscosity-temperature characteristics of warm mix asphalt binder with Sasobit®”, Construction and Building Materials, 78, pp. 34-39. 10.1016/j.conbuildmat.2014.12.123
28
Zohuriaan-Mehr, M.J. and Omidian, H. (2000). “Petroleum resins: an overview”. Journal of Macromolecular Science, Part C: Polymer Reviews, 40(1), pp. 23-49. 10.1081/MC-100100577
Information
  • Publisher :KOREAN ASPHALT INSTITUTE
  • Publisher(Ko) :한국아스팔트학회
  • Journal Title :Journal of the Korean Asphalt Institute
  • Journal Title(Ko) :한국아스팔트학회지
  • Volume : 11
  • No :1
  • Pages :1-14
  • Received Date : 2021-05-10
  • Revised Date : 2021-06-02
  • Accepted Date : 2021-06-10
  • DOI :https://doi.org/10.22702/jkai.2021.11.1.1
Journal Informaiton Journal of the Korean Asphalt Institute Journal of the Korean Asphalt Institute
Online submission
  • KISTI Current Status
  • KISTI Cited-by
  • KCI 문헌 유사도 검사
  • orcid
  • open access
  • ccl
Journal Informaiton Journal Informaiton - close