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International Journal of Pavement Engineering Volume 18, 2017 - Issue 4
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Original Articles

Characterisation of unbound aggregate materials considering physical and morphological properties

Jayhyun KwonTensar International Corporation, Alpharetta, Georgia
,
Sung-Hee KimCivil and Construction Engineering, Kennesaw State University, Marietta, GeorgiaCorrespondence[email protected]
,
Erol TutumluerCivil and Environmental Engineering, University of Illinois at Urbana-Champaign, Urbana, IL, USA
&
Mark H. WayneTensar International Corporation, Alpharetta, Georgia
Pages 303-308 | Received 22 Apr 2015, Accepted 23 May 2015, Published online: 27 Jul 2015

References

  • AASHTO T307-99, 2002. Determining the resilient modulus of soils and aggregate materials part 2B. 22nd ed. American Association of State Highway and Transportation Officials.
  • Al-Rousan, T., et al., 2007. Evaluation of image analysis techniques for quantifying aggregate shape characteristics. Construction and Building Materials, 21, 978–990.10.1016/j.conbuildmat.2006.03.005
  • BS EN 13286-7, 2004. Unbound and hydraulically bound mixtures. Cyclic load triaxial test for unbound mixtures. London: BSi.
  • Kim, S.H., et al., 2005. Estimation of level of anisotropy in unbound granular layers considering aggregate physical properties. International Journal of Pavement Engineering, 6 (4), 217–227.10.1080/10298430500335244
  • Masad, S., and Little, D.N., 2004. Sensitivity analysis of flexible pavement response and AASHTO 2002 design guide for properties of unbound layers, ICAR 504–1. Austin, TX: International Center for Aggregates Research.
  • Pan, T., Tutumluer, E., and Anochie-Boateng, J., 2006. Aggregate morphology affecting resilient behavior of unbound granular materials. In: Transportation Research Record 1952, TRB. Washington, DC: National Research Council, 12–20.
  • Rao, C., Tutumluer, E. and Kim, I.-T., 2002. Quantification of coarse aggregate angularity based on image analysis. In: Transportation Research Record 1787, TRB. Washington, DC: National Research Council, 117–124.
  • Saeed, A., Hall J., and Barker W., (2001). Performance-related tests of aggregates for use in unbound pavement layers. NCHRP Report No.453. Washington, DC: National Academy
  • Tao, M., et al., 2010. Application of Shakedown Theory in Characterizing Traditional and Recycled Pavement Base Materials. Journal of Transportation Engineering, 136 (3), 214–222.10.1061/(ASCE)0733-947X(2010)136:3(214)
  • Thompson, M.R., (1998). State-of-the-art: unbound base performance. Proceedings of the 6th annual symposium of International Center for Aggregate Research (ICAR). Austin, TX.
  • Tutumluer, E. and Pan, T., 2008. Aggregate morphology affecting strength and permanent deformation behavior of unbound aggregate materials. ASCE Journal of Materials in Civil Engineering, 20 (9), 1–11.
  • Tutumluer, E., Pan, T., and Carpenter, S.H., 2005. Investigation of aggregate shape effects on hot mix asphalt performance using an image analysis approach Transportation Pooled Fund Study TPF-5 (023). Federal Highway Administration, University of Illinois Urbana-Champaign.
  • Tutumluer, E., Rao, C., and Stefanski, J.A., 2000. Video image analysis of aggregates. Final Project Report, FHWA-IL-UI-278, Civil Engineering Studies UILU-ENG-2000–2015. University of Illinois Urbana-Champaign.
  • Xiao, Y., et al., (2012). Gradation Effects Influencing mechanical properties of aggregate base and granular subbase materials in Minnesota. In: Transportation Research Record 2267, Journal of the Transportation Research Board. Washington, DC: National Research Council, pp. 14–26.

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