A review on fatigue and rutting performance of asphalt mixes

Moghaddam, T.B. and Karim, M.R. and Abdelaziz, M. (2011) A review on fatigue and rutting performance of asphalt mixes. Scientific Research and Essays, 6 (4). pp. 670-682. ISSN 19922248,

PDF (A review on fatigue and rutting performance of asphalt mixes)
A_review_on_fatigue_and_rutting_performance_of_asphalt_mixes.pdf - Other

Download (557kB)
Official URL: http://www.scopus.com/inward/record.url?eid=2-s2.0...


Fatigue and rutting are very well known to be the two popular distresses that occur in road pavement. These are mainly due to the increase in the number of vehicles particularly those with high axle loads, due to the environmental conditions and also due to construction and design errors. As a consequence the service life of asphalt pavement is affected and will be decreased. Various researches reported that using additives such as different types of polymer and fiber in asphalt concrete (AC) could be a solution to postpone deterioration of AC pavement. This paper aims to highlight previous research works conducted on the effects of using different types of additives and aggregate gradation on fatigue and rutting resistance of AC mixtures. It was observed that fatigue and rutting resistance of AC mixture could be enhanced considerably by utilization of different types of additives such as fibers that can increase the amount of strain energy absorbed during fatigue and fracture process of the mix in the resulting composite. Also, fibers and polymers provide three-dimensional networking effect in asphalt concrete and stabilise the binder on surface of aggregate particles and prevent from any movement at higher temperature.

Item Type: Article
Additional Information: Cited By (since 1996):10 Export Date: 16 December 2013 Source: Scopus Language of Original Document: English Correspondence Address: Karim, M. R.; Center for Transportation Research, University of Malaya, 50603 Kuala Lumpur, Malaysia; email: rehan@um.edu.my References: Abdulshafi, A., Rutting-review of existing models and some application to Saudi Arabia (1988) Proceed. 3rd IRF Middle East Regional Meet., 6, pp. 244-256; Abo-Qudais, S., Shatnawi, I., Prediction of bituminous mixture fatigue life based on accumulated strain (2007) J. Constr. Build. Mater., 21, pp. 1370-1376; Ahmedzade, P., Tigdemir, M., Kalyoncuoglu, S.F., Laboratory investigation of the properties of asphalt concrete mixtures modified with TOP-SBS (2007) J. Constr. Build. Mater., 21, pp. 626-633; Akisetty, C.K., Lee, S.J., Amirkhanian, S.N., High temperature properties of rubberized binders containing warm asphalt additives (2009) J. Constr. Build. Mater., 23, pp. 565-573; Arabani, M., Mirabdolazimi, S.M., Sasani, A.R., The effect of waste tire thread mesh on the dynamic behaviour of asphalt mixtures (2010) J. Constr. Build. Mater., 24, pp. 1060-1068; Asi, I.M., Laboratory comparison study for the use of stone matrix asphalt in hot weather climates (2006) J. Constr. Build. Mater., 20, pp. 982-989; Behbahani, H., Nowbakht, S., Fazaeli, H., Rahmani, J., Effects of Fiber Type and Content on Rutting Performance of Stone Matrix Asphalt (2009) J. Appl. Sci., 9 (10), pp. 1980-1984; Brown, E.R., Mallick, R.B., Haddock, J.E., Bukowski, J., Performance of stone matrix asphalt (SMA) mixtures in the United States (1997) National Center for Asphalt Technology, NCAT Report, pp. 97-101; (2009) Research and Innovative Technology Administration, , http://www.bts.gov/publications/nationaltransportationstatistics/html/table₀₁11.html, Bureau of Transportation Statics; Cao, W., Study on properties of recycled tire rubber modified asphalt mixtures using dry process (2007) J. Constr. Build. Mater., 21, pp. 1011-1015; Casey, D., McNally, C., Gibney, A., Gilchrist, M.D., Development of a recycled polymer modified binder for use in stone mastic asphalt (2008) Resour. Conserv. Recycling., 52, pp. 1167-1174; Chang, J.R., Chao, S.J., Development of a Rutting Prediction Model through Accelerated Pavement Testing Using Group Method of Data Handling (GMDH) (2009) Fifth Int. Conf. Natur. Comput. IEEE Comput. Soc., 3, pp. 367-371; Chen, H., Xu, Q., Experimental study of fibers in stabilizing and reinforcing asphalt binder (2009) Fuel, 89 (7), pp. 1616-1622; Chiu, C.T., Lu, L.C., A laboratory study on stone matrix asphalt using ground tire rubber (2007) J. Constr. Build. Mater., 21, pp. 1027-1033; Christensen Jr., D.W., Bonaquist, R.F., (2006) Volumetric Requirements for Superpave Mix Design. NCHRP, REPORT, p. 567; Davidson, J.K., Kennepohl, G.J., Introduction of stone mastic asphalt in Ontario (1992) J. Asphalt Paving Technol, AAPT., 61, pp. 517-534; Doh, Y.S., Yun, K.K., Amirkhanian, S.N., Kim, K.W., Framework for developing a static strength test for measuring deformation resistance of asphalt concrete mixtures (2007) J. Constr. Build. Mater., 21, pp. 2047-2058; (2007) Panorama of Transport, , European Commission, Luxembourg. ISBN 978-92-79-04618-6; Fontes, L.P.T.L., Trichês, G., Pais, J.C., Pereira, P.A.A., Evaluating permanent deformation in asphalt rubber mixtures (2010) J. Constr. Build. Mater., 24, pp. 1193-1200; Hafiang, W., (2001) Fatigue performance evaluation of Westrack asphalt mixtures based on viscoelastic analysis of indirect tensile test, , PhD dissertation, North Carolina State University, US; Hinislioǧlu, S., Aǧar, E., Use of waste high density polyethylene as bitumen modifier in asphalt concrete mix (2004) Mater. Lett., 58, pp. 267-271; Huang, H., White, T.D., Dynamic properties of fiber-modified overlay mixture (1996) Trans. Res. Rec., 1545, pp. 98-104; Jahromi, S., Khodaii, A., Carbon fiber reinforced asphalt concrete (2008) Arab J SciEng., 33, pp. 355-364; Jun, L., Yuxia, Z., Yuzhen, Z., The research of GMA-g-LDPE modified Qinhuangdao bitumen (2008) J. Constr. Build. Mater., 22, pp. 1067-1073; Kim, K.W., Lee, S.H., Doh, Y.S., Lee, S.J., Correlation between mechanical properties of asphalt concrete and properties of modified binder (2000) J. Adv. Mineral. Agg. Compos, Korea., 5, pp. 63-74; Li, S.F., Kim, J.Y., Lee, K.H., Kim, K.W., Prediction of rutting based on volumetric and tensile properties of asphalt concrete (2002) Proceedings of 4th international conference on road & airfield pavement technology, , Kunming, China; Liang, R.Y., Zhou, J., Prediction of fatigue life of asphalt concrete beams (1997) Int. J. Fatigue., 19 (2), pp. 117-124; Liu, X., Wu, S., Ye, Q., Qiu, J., Li, B., Properties evaluation of asphaltbased composites with graphite and mine powders (2008) J. Constr. Build. Mater., 22, pp. 121-126; Lu, X., Isacsson, U., Modification of road bitumens with thermoplastic polymers (2001) PolymTest., 20, pp. 77-86; Lu, X., Redelius, P., Effect of bitumen wax on asphalt mixture performance (2007) J. Constr. Build. Mater., 21, pp. 1961-1970; Mahrez, A., Karim, M.R., Katman, H.Y., Fatigue and deformation properties of glass fiber reinforced bituminous mixes (2005) J. Eastern Asia, Soc. Trans. Stud., 6, pp. 997-1007; Mahrez, A., Karim, M.R., Fatigue characteristics of stone mastic asphalt mix reinforced with fiber glass (2010) Int. J. Phys. Sci., 5 (12), pp. 1840-1847; Mantzos, L., Capros, P., (2006) European energy and transport: Trends to 2030: Update 2005, , Belgium: European Commission; ISBN 92-79-02305-5; McGennis, R.B., Anderson, R.M., Kennedy, T.W., Solaimanian, M., (1994) Background of Superpave Asphalt Mixture Design and Analysis, , Publication No. FHWA-SA-95-003; Muniandy, R., Huat, B.K., Laboratory Diameteral Fatigue Performance of Stone Matrix Asphalt with Cellulose Oil Palm Fiber (2006) Am. J. Appl. Sci., 3 (9), pp. 2005-2010; Navarro, F.J., Partal, P., Martínez-Boza, F., Gallegos, C., Thermorheological behaviour and storage stability of ground tire rubbermodified bitumens (2004) Fuel., 83, pp. 2041-2049; (2004) Calibration of fatigue cracking modelsfor flexible pavements, pp. 1-204. , http://www.trb.org/mepdg/2appendicesII.pdf, NCHRP, APPENDIX II-1; Nejad, F.M., Aflaki, E., Mohammadi, M.A., Fatigue behavior of SMA and HMA mixtures (2010) J. Constr. Build. Mater., 24, pp. 1158-1165; Ã�zen, H., Aksoy, A., Tayfur, S., Ã�elik, F., Laboratory performance comparison of the elastomer-modified asphalt mixtures (2008) Building Environ., 43, pp. 1270-1277; Putman, B.J., Amirkhanian, S.N., Utilization of waste fibers in stone matrix asphalt mixtures (2004) Resour. Conserv. Recycling., 42, pp. 265-274; Roberts, F.L., Kandhal, P.S., Brown, E.R., Lee, D.Y., Kennedy, T.W., (1996) Hot Mix Asphalt Materials, Mixture Design, and Construction, p. 603. , NAPA Education Foundation, Second Edition; Robertus, C., Mulder, E.A., Koole, R.C., SBS modified bitumen for heavy duty asphalt pavements (1995) Second international conference on roads and airfield pavement technology, , Singapore; Scherocman, J.A., SMA reduces rutting (1991) Better Roads, 61 (11); Scherocman, J.A., Construction of SMA test sites in the US (1992) AAPT meeting, , February 24-26; Sengoz, B., Topal, A., Use of asphalt roofing shingle waste in HMA (2005) J. Constr. Build. Mater., 19, pp. 337-346; Shell Bitumen Handbook (1991)A-404. Fatigue response of asphalt-aggregate mixer (1994) Strategic highway research program, , SHRP, National Research Council; Stuart, K.D., Mogawer, W.S., Validation of asphalt binder and mixture tests that predict rutting susceptibility using the FHWA ALF (1997) J. Asphalt Paving Technol., 66, pp. 109-152; Su, K., Sun, L.J., Hachiya, Y., Rut Prediction for Semi-rigid Asphalt Pavements (2008) First International Symposium on Transportation and Development Innovative Best Practices, pp. 486-491. , Beijing; Suo, Z., Wong, W.G., Analysis of fatigue crack growth behavior in asphalt concrete material in wearing course (2009) J. Constr. Build. Mater., 23, pp. 462-468; (1996) Superpave, Series SP-2, , Superpave Mix Design; Tapkin, S., The effect of polypropylene fibers on asphalt performance (2008) Build Environ., 43, pp. 1065-1071; Tayfur, S., Ozen, H., Aksoy, A., Investigation of rutting performance of asphalt mixtures containing polymer modifiers (2007) J. Constr. Build. Mater., 21, pp. 328-337; Wu, S., Ye, Q., Li, N., Investigation of rheological and fatigue properties of asphalt mixtures containing polyester fibers (2008) J. Constr. Build. Mater., 22, pp. 2111-2115; Xiao, F., Zhao, P.E.W., Amirkhanian, S.N., Fatigue behavior of rubberized asphalt concrete mixtures containing warm asphalt additives (2009) J. Constr. Build. Mater., 23, pp. 3144-3151; Xiao, F., Amirkhanian, S.N., Shen, J., Putman, B., Influences of crumb rubber size and type on reclaimed asphalt pavement (RAP) mixtures (2009) J. Constr. Build. Mater., 23, pp. 1028-1034; Xu, Q., Chen, H., Prozzi, J.A., Performance of fiber reinforced asphalt concrete under environmental temperature and water effects (2010) J. Constr Build Mater., 24 (10), pp. 2003-2010; Yan, J., Ni, F., Yang, M., Li, J., An experimental study on fatigue properties of emulsion and foam cold recycled mixes (2010) J. Constr. Build. Mater., 24 (11), pp. 2151-2156; Ye, Q., Wu, S., Li, N., Investigation of the dynamic and fatigue properties of fiber-modified asphalt mixtures (2009) Int. J. Fatigue, 31, pp. 1598-1602
Uncontrolled Keywords: Additives, Aggregate gradation, Asphalt pavement, Fatigue, Rutting
Subjects: T Technology > TA Engineering (General). Civil engineering (General)
Divisions: Faculty of Engineering
Depositing User: Mr Jenal S
Date Deposited: 21 Mar 2014 01:42
Last Modified: 21 Mar 2014 01:42
URI: http://eprints.um.edu.my/id/eprint/8801

Actions (login required)

View Item View Item