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International Journal of Pavement Engineering Volume 20, 2019 - Issue 9
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Original Articles

Development of a nonlinear rutting model for asphalt concrete based on Weibull parameters

A. S. M. Asifur RahmanDepartment of Civil Engineering, The University of New Mexico, Albuquerque, NM, USACorrespondence[email protected]
,
Matias M. Mendez LarrainRoca Engineering, Inc., Oklahoma City, OK, USAORCID Iconhttp://orcid.org/0000-0002-7547-2139
ORCID Icon &
Rafiqul A. TarefderDepartment of Civil Engineering, The University of New Mexico, Albuquerque, NM, USA
Pages 1055-1064 | Received 02 Jun 2017, Accepted 31 Aug 2017, Published online: 05 Oct 2017

References

  • AASHTO MP 2 , 2002. Standard specification for superpave volumetric mix design. Standard Specifications for Transportation Materials and Methods of Sampling and Testing .
  • AASHTO T 166 , 2011. Standard method of test for bulk specific gravity (G mb) of compacted hot mix asphalt (HMA) using saturated surface-dry specimens. Standard Specificaitons for Transportation Materials and Methods of Sampling and Testing .
  • AASHTO T 168 , 2011. Standard method of test for sampling bituminous paving mixtures. Standard Specificaitons for Transportation Materials and Methods of Sampling and Testing .
  • AASHTO T 209 , 2011. Standard method of test for theoretical maximum specific gravity (G mm) and density of hot mix asphalt (HMA). Standard Specificaitons for Transportation Materials and Methods of Sampling and Testing .
  • AASHTO T 312 , 2011. Standard method of test for preparing and determining the density of hot mix asphalt (HMA) specimens by means of the superpave gyratory compactor. Standard Specificaitons for Transportation Materials and Methods of Sampling and Testing .
  • AASHTO T 324 , 2011. Standard method of test for Hamburg Wheel-Track testing of compacted hot mix asphalt (HMA). Standard Specificaitons for Transportation Materials and Methods of Sampling and Testing .
  • Aschenbrener, T. and Curier, G. , 1993a. Influence of testing variables on the results from the Hamburg wheel-tracking device . Colorado Department of Transportation, Publication No. CDOT-DTD-R-93-92.
  • Aschenbrener, T. and Currier, G. , 1993b. Influence of testing variables on the results from the Hamburg wheel-tracking device . Denver, CO: Colorado Department of Transportation, Report No. COOT -D1D-R-93-22.
  • Aschenbrener, T. , 1995. Evaluation of Hamburg Wheel Tracking Device to Predict Moisture Damage in Hot-Mix Asphalt. In: Transportation Research Record: Journal of the Transportation Research Board, No. 1492 . Washington, DC: Transportation Research Board of the National Academies, 193–201.
  • ASTM , 1998. Viscosity-temperature chart for asphalts: ASTM D 2493. Annual Book of ASTM Standards , 0.403, 230–234.
  • Coleri, E. , Tsai, B. , and Monismith, C. , 2008. Pavement rutting performance prediction by integrated Weibull approach. In: Transportation research board of the national academies . Washington, DC: Transportation Research Board of the National Academies, 120–130.
  • Gogula, A. , et al. , 2003. Effect of PG binder grade and source on performance of superpave mixtures under Hamburg wheel tester. Mid- Continent Transportation Research Symposium, Ames, Iowa . August 2003.
  • Gokhale, S. , et al. , 2006. Evaluation of coarse and fine graded superpave mixtures under accelerated pavement testing . Florida Department of Transportation, Publication No. FL/DOT/SMO/06-494.
  • Golalipour, A. , et al. , 2012. Effect of aggregate gradation on rutting of asphalt pavements. In Procedia Social and Behavioral Sciences , 53, 440–449.10.1016/j.sbspro.2012.09.895
  • Habeeb, H. , Chandra, S. , and Nashaat, Y. , 2012. Estimation of moisture damage and permanent deformation in asphalt mixture from aggregate gradation. KSCE Journal of Civil Enginering , 18 (6), 1655–1663.
  • Kanitpong, K. , Charoentham, N. , and Likitlersuang, S. , 2012. Investigation on the effects of gradation and aggregate type to moisture damage of warm mix asphalt modified with Sasobit. International Journal of Pavement , 13 (5), 451–458.10.1080/10298436.2011.565058
  • Kassem, E. , et al. , 2011. Influence of air voids on mechanical properties of asphalt mixtures. Journal of Road Materials and Pavement Designs , 12, 493–524.10.1080/14680629.2011.9695258
  • Khandal, P. and Cooley, A. , 2002. Coarse versus fine-graded superpave mixtures comparative evaluation of resistance to rutting . National Center for Asphalt Technology, Publication No. NCAT Report 02-02.
  • Larrain, M.M.M. and Tarefder, R.A. , 2016a. Weibull model for rutting prediction of warm mix asphalt agents using Hamburg wheel tracking device. 95th Annual Meeting of Transportation Research Board, Paper No. 16-3974. Washignton, DC, 2016.
  • Larrain, M.M.M. and Tarefder, R.A. , 2016b. Weibull model for rutting prediction of warm-mix asphalt agents. In: Transportation research record: journal of transportation research board, no. 2575 . Washington, DC, 206–212.
  • Lu, Q. , 2005. Investigation of conditions for moisture damage in asphalt concrete and appropriate laboratory test methods . Berkeley, CA: University of California Transportation Center.
  • Manal, A. and Attia, M. , 2013. Impact of aggregate gradation and type of hot mix asphalt rutting in Egypt. In International Journal of Engineering Research and Application , 3 (4), 2249–2258.
  • Peng, T. , Wang, X. , and Chen, S. , 2013, August. Pavement performance prediction model based on weibull distribution. In: Applied mechanics and materials vol. 378. Washington, DC: Transportation Research Board of the National Academies, 61–64.
  • Schram, S. , Williams, C. , and Bus, A. , 2014. Reporting results from the Hamburg wheel tracking device. In: Transportation research record: journal of the transportation research board, no. 2446 . Washington, DC: Transportation Research Board of the National Academies, 89–98.
  • Solaimanian, M. and Pendola, G. , 2011. Aggregate behavior in the Hamburg wheel tracking device . Texas Department of Transportation.
  • Tarefder, R. and Zaman, M. , 2002. Evaluation of rutting potential of hot mix asphalt using the asphalt pavement analyzer . Norman, OK: Oklahoma Department of Transportation, Publication No. Final Report Item 2153; ORA 125-6660.
  • Yildirim, Y. and Stokoe, K. , 2006. Analysis of Hamburg wheel tracking device results in relation to field performance . Texas Department of Transportation, Report No. FHWA/TX-06/0-4185-5.
  • Yin, F. , et al. , 2014. Novel method for moisture susceptibility and rutting evaluation using Hamburg wheel tracking test. In: Transportation research record: journal of the transportation research board, no. 2446 . Washington, DC: Transportation Research Board of the National Academies, 1–7.

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