SciELO - Scientific Electronic Library Online

SciELO - Scientific Electronic Library Online

Article References

WALUBITA, L F et al. Air void characterisation of HMA gyratory laboratory-moulded samples and field cores using X-ray computed tomography (X-ray CT). J. S. Afr. Inst. Civ. Eng. [online]. 2012, vol.54, n.1, pp. 22-30. ISSN 1021-2019.

    Alvarez, A E, Epps Martin, A & Estakhri, C 2009. Connected air voids content in permeable friction course mixtures. Journal of Testing and Evaluation, 37(3): 254-263. [ Links ]

    Alvarez, A E, Epps Martin, A & Estakhri, C 2010a. Internal structure of compacted permeable friction course mixtures. Construction and Building Materials, 24(6): 1027-1035. [ Links ]

    Alvarez, A E, Mahmoud, E, Epps Martin, A, Masad, E & Estakhri, C 2010b. Stone-on-stone contact of permeable friction course mixtures. Journal of Materials in Civil Engineering, ASCE, 22(11): 1129-1138. [ Links ]

    Bonaquist, R F, Christensen, D W & Stump, W 2003. Simple performance tester for superpave mix design: First-article development and evaluation. NCHRP Report No 513, Washington D.C.: National Cooperative Highway Research Program. [ Links ]

    Braz, D, Lopes, R T & Da Motta, L M G 1999. Analysis of the percentage voids of test and field specimens using computerized tomography. Nuclear Instruments and Methods in Physics Research A, 422: 942-948. [ Links ]

    Cooley (Jr), L A & Brown, E R 2003. Potential of using stone matrix asphalt (SMA) for thin overlays. NCAT Report No 03-01, Auburn, AL, US: National Center for Asphalt Technology, Auburn University. [ Links ]

    Kassem, E, Walubita, L F, Scullion, T, Masad, E & Wimsatt, A 2008. Evaluation of full-depth asphalt pavement construction using X-ray computed tomography and ground penetrating radar. Journal of Performance of Constructed Facilities, 22(6): 408-416. [ Links ]

    Luo, R & Lytton, R L 2011. Distribution of crack size in asphalt mixtures. Proceedings, Transportation Research Board 89th Annual Meeting. [ Links ]

    Masad, E 2004. X-ray computed tomography of aggregates and asphalt mixes. Materials Evaluation Journal, 62(7): 775-783. [ Links ]

    Masad, E, Arambula, E, Ketcham, R A, Abbas, A R & Martin, A E 2007. Nondestructive measurements of moisture transport in asphalt mixtures. Journal of the Association of Asphalt Paving Technologists (AAPT), 76: 919-952. [ Links ]

    Masad, E, Kassem, E & Chowdhury, A 2009. Application of imaging technology to improve the laboratory and field compaction of HMA. Report No FHWA/ TX-09/0-5261-1, College Station, TX, US: Texas Transportation Institute, Texas A&M University. [ Links ]

    Media Cybernetics Inc 1999. Image-Pro® Plus, Version 5.1.2. Bethesda, MD, US. [ Links ]

    Muraya, P M 2007. Homogeneous test specimens from gyratory compaction. International Journal of Pavement Engineering, 8(3): 225-235. [ Links ]

    Shashidhar, N 1999. X-ray tomography of asphalt concrete. Transportation Research Record: Journal of the Transportation Research Board, 1681: 186-192. [ Links ]

    Thyagarajan, S, Tashman, L, Masad, E & Bayomy, F 2010. The heterogeneity and mechanical response of hot mix asphalt laboratory specimens. International Journal of Pavement Engineering, 11(2): 107-121. [ Links ]

    TxDOT (Texas Department of Transportation) 2004. Standard specifications for construction and maintenance of highways, streets, and bridges. Austin, TX, US. [ Links ]

    TxDOT (Texas Department of Transportation) 2011. TxDOT - online manuals. Available at: http://www.onlinemanuals.txdot.gov/manuals/. [ Links ]

    Walubita, L F 2006. Comparison of fatigue analysis approaches for predicting fatigue lives of hot-mix asphalt concrete (HMAC) mixtures. PhD thesis, Texas A&M University, College Station, TX, US. [ Links ]

    Walubita, L F, Liu, W & Scullion, T 2010a. Texas perpetual pavements - Experience overview and the way forward. Technical Report No 0-4822-3, Texas Transportation Institute, Texas A&M University, College Station, TX, US. [ Links ]

    Walubita, L F, Simate, G S & Oh, J 2010b. Characterising the ductility and fatigue crack resistance potential of asphalt mixes based on the laboratory direct tensile strength test. Journal of the South African Institution of Civil Engineering, 52(2): 31-40. [ Links ]

    Walubita, L F, Umashankar, V, Hu, X, Jamison, B, Zhou, F, Scullion, T, Epps Martin, A & Dessouky, S 2010c. New generation mix-designs: Laboratory testing and construction of the APT test sections. Report No 0-6132-1, Texas Transportation Institute, Texas A&M University, College Station, TX, US. [ Links ]

    Watson, D E, Masad, E, Moore, K A, Williams, K & Cooley Jr., L A 2004. Verification of voids in coarse aggregate testing: Determining stone-on-stone contact of hot-mix asphalt mixtures. Transportation Research Record: Journal of the Transportation Research Board, 1891: 182-190. [ Links ]