Vol. 21 No. 1 (2018) Cover Image
Vol. 21 No. 1 (2018)

Published: February 28, 2018

Pages: 20-27

Articles

Properties of Epoxy-Asphalt Pavement Mixture for Bridge Decks

Amjad H. Albayati 1 Esraa T. Al-Azawee 2
1 Civil Engineering Dept., University of Baghdad, IRAQ
2 Civil Engineering Dept. Al-Mansour University College, Baghdad, IRAQ
History
  • Received: October 19, 2017
  • Revised: November 26, 2017
  • Accepted: January 7, 2018
  • Available Online: February 10, 2018
DOI

https://doi.org/10.29194/NJES21010020

Abstract

Improving the ability of asphalt pavement to survive the heavily repeated axle loads and weathering challenges in Iraq has been the subject of research for many years. The critical need for such data in the design and construction of more durable flexible pavement in bridge deck material is paramount. One of new possible steps is the epoxy asphalt concrete, which is classified as a superior asphalt concrete in roads and greatly imparts the level of design and construction. This paper describes a study on 40-50 penetration graded asphalt cement mixed with epoxy to produce asphalt concrete mixtures. The tests carried out are the Marshall properties, permanent deformation, flexural fatigue cracking and moisture damage. Epoxy asphalt mixes performed better on resistance to fatigue and permanent deformation. They also performed significantly better on low-temperature properties and resistance to moisture damage. The addition of 30 percent of epoxy (by weight of asphalt cement) resulted in increase of Marshall stability by 39.8 percent, improve the tensile strength ratio by 22.9 percent, lowering both the rate of permanent deformation by 26.8 percent and the fatigue accumulation coefficient by 53.5 percent, in comparison with control HMA. Based on the above findings, it is recommended to use epoxy asphalt mixes as an optimal material for paving bridges deck in Iraq since it showed good prospects for this application due to the valuable performance and durability improvement.

Keywords

References

  1. Héritie, B.R., F. Olard, M. Saubotand and S. Kraft, 2005. Design of Specific Bituminous Surfacing for Orthotropic Steel Bridge Decks: Application to the Millau Viaduct. Presented at 7th International Conference on the Bearing Capacity of Roads, Railways and Airfields, Trondheim.
  2. Bild, S., (1985) “Contribution to the improvement of the durability of asphalt pavement on orthotropic steel bridge decks”,(dissertation), Achen: RWTH Achen.
  3. Read J, Whiteoak D , (2003). The shell bitumen handbook. 5th ed. UK: Shell Bitumen.
  4. Xuejuan Cao1, Yunbo Lei, Wei Wang, BomingTang , (2011) , “A Curing Model for Epoxy Asphalt Concrete and Its Implementation for Construction” , International Journal of Pavement Research and Technology, Vol.4 No.3.
  5. Chen C, Qian ZD, Chen LL.,(2011) Research on the construction and strength increasing characteristic of local developed epoxy asphalt mixture. J Southeast University.
  6. Aksoy A, Samiloglu K, Tayfur S, Ozen H., (2005) “Effects of various additives on themoisture damage sensitivity of asphalt mixtures”. Construction and Building Materials Volume 19, Issue 1, pp 11-18.
  7. Garba, R.,((2002) “Permanent deformation properties of asphalt concrete mixtures, PhD Thesis, Norwegian University of Science and Technology”.
  8. Monismith, C.L. ,Deacon, J.A. (1969), “Fatigue of asphalt paving mixtures”. ASCE Transportation Engineering Journal 95(2): 317–346.
  9. Albayati, H. K (2006) “Permanent Deformation Prediction of Asphalt Concrete Under Repeated Loading”,(dissertation), University of Baghdad. Iraq.
  10. SCRB/R9 (2003). General Specification for Roads and Bridges, Section R/9, Hot-Mix Asphalt Concrete Pavement, Revised Edition. State Corporation of Roads and Bridges, Ministry of Housing and Construction, Republic of Iraq