The Effect of Reclaim Tire Rubber as Additive in Minimizing Reflective Cracking
Abstract
The rehabilitation of cracked pavement by overlaying, without any improvement, is rarely a durable solution, as the cracks rapidly propagate through the new asphalt layer. Cracks reflection through the road structure is one of the main causes of premature pavement deterioration which shortens the service life of overlays. The prime objective of this research is find the suitable remedies for this problem, by optimizing overlay asphalt mix design after considering the properties of various available material types, amounts and exposure conditions, Which include: two grades and five contents of asphalt cement, two aggregate maximum sizes and one type with different contents of asphalt modifier additives with reclaim tire rubber. A total of 160 Marshall Specimens were prepared and tested by Marshall, Indirect tensile and Creep tests at different temperature. To simulate the overlay performance under a rolling tire, 18 compacted asphalt concrete beam samples are tested using a modified wheel tracking apparatus. It can be concluded that mixes with optimum content of asphalt cement grade (40-50), 12.5 mm aggregate maximum size and 3% of reclaim tire rubber (by wt. of asphalt) give the maximum resistance to reflection cracking.
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References
Sherman, G. “Minimizing Reflection Cracking of Pavement Overlays”, National Cooperative Highway Research Program, Synthesis of Highway practice 92 (1982), pp. 1-25.
Sudhakar, R. K., Raghava, R. K. and Pandey, B. B.,“Cracking in Bituminous Layers Placed over Cracked Pavement”, Transportation Research Board (1999).
Frank, B., Mc McCullough, and Seeds, S. B., “Field Validation of an Overlay Design
Procedure to Prevent Reflection Cracking.” Proc., Structural Design of Asphalt Pavements, Vol. 1 (1982).
Hensley, J., “Get to the Bottom of Reflection Cracking Problems”, (2002), pp.1-3,(Internet).
Safar, M. M., “Influence of Temperature on Performance of Paving Materials”, M.Sc. Thesis, University of Baghdad (1992), pp.75-76.
Al-Fityan, M. H. M., “Materials and Environment Factors Affecting the Performance of Thin Hot-Mix Carpet Coats for Highway Pavements”, M.Sc. Thesis, University of Baghdad (1995).
Ismail, M. Q., “Reflection Cracking of Pavement Overlays, Influence of Mixture Variables”, M.Sc. Thesis, University of Baghdad (1998), pp. 92-93.
Riadh, H. S., “Evaluation of Asphalt Concrete Resistance to Reflection Cracking by Time-Dependent Fracture mechanics Approach”, M.Sc. Thesis, Technology University (1998), pp.96-97.
Awad, H. A., “Effect of Variation in Aggregate Combined Gradation on Behavior of Asphalt Concrete Mixtures”, M.Sc. Thesis, University of Baghdad, (2002), pp. 90-91.
Abdul-Mawjoud, A. Abd.-H., “Effects of Loading Moad Water and Aging on the Fatigue of Asphalt Concrete Mixtures”, M.Sc.Thesis, University of Mosul (1988).
Jack, E. Stephens, “Field Evaluation of Rubber-Modified Bituminous Concrete”, Transportation Research Record 843 (1982), pp.11-21.
Sousa, J. B., Shatnawi and Cox. J., “An Approach for Investigating Reflective Fatigue Cracking in Asphalt-Aggregate Overlays”, Proceedings of The Third International RILEM Conference on Reflective Cracking in Pavements, Delft University of Technology and Belgian Road Research Center, October (1996), pp.103-112.
Ye Guozheng. “Fatigue Shear and Fracture Behavior of Rubber Bituminous Pavement”, Proceedings of The Third International RILEM Conference on Reflective Cracking in Pavements, Delft University of Technology and Belgian Road Research Center, October (1996), pp.168-175.
State Commission of Roads and Bridges (S.C.R.B), “Hot Mix Asphalt Concrete Pavements”, Iraq standard Specifications, Ministry of Housing and Construction, Department of Design and Study, section R9, 1989.
“ASTM” Annual Book of ASTM Standers, Section 4, Volume 04.03, 1988.
Brown, S. F. and Brunton, J. M., “Grid Reinforced Overlays”, “RILEM/CEP International Conference on Reflective Cracking in Pavements, Univ. of Liege, Belgium, March (1989),pp.63-71.
Gilchrist, A. J. T., “Control of Reflection Cracking in Pavement by the Installation of Polymer Geogrids”, “RILEM/CEP International Conference on Reflective Cracking in Pavements, Univ. of Liege, Belgium, March (1989),pp.350-358.
H.KH. Al-Baiti “Minimizing Reflective Cracking Potential of Asphalt Concrete Overlay” M.Sc. Thesis. Dept. of Highway and Transportation Eng., College of Eng., University of Al-Mustansiria, 2004, pp. 112-113.
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Copyright (c) 2010 Gandhi Ganem Sofia, Hanaa Khaleel A. Al-Baiti
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