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Road Materials and Pavement Design Volume 16, 2015 - Issue 1
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Scientific papers

Evaluation of a permanent deformation model for asphalt concrete mixtures using extra-large wheel-tracking and heavy vehicle simulator tests

Abubeker W. AhmedPavement Technology, Swedish National Road and Transport Research Institute, SE-581 95, Linköping, Sweden;Division of Highway and Railway Engineering, KTH, Royal Institute of Technology, Stockholm, SwedenCorrespondence[email protected]
&
Sigurdur ErlingssonPavement Technology, Swedish National Road and Transport Research Institute, SE-581 95, Linköping, Sweden;Division of Highway and Railway Engineering, KTH, Royal Institute of Technology, Stockholm, Sweden;Faculty of Civil and Environmental Engineering, University of Iceland, Reykjavik, Iceland
Pages 154-171 | Received 12 Apr 2014, Accepted 07 Nov 2014, Published online: 09 Dec 2014

References

  • Azari, H., Mohseni, A., & Gibson, N. (2008). Verification of rutting predictions from mechanistic empirical pavement design guide using accelerated loading facility data. Transportation Research Record, 2057, 157–167.
  • Barksdale, R. D. (1972, September). Laboratory evaluation of rutting in base course materials. Proceedings of 3rd international conference on Structural Design of Asphalt Pavements (pp.161–174), London.
  • Blab, R., & Litzka, J. (1995). Measurements of the lateral distribution of heavy vehicles and its effects on the design of road pavements. Proceedings of 4th international symposium on Heavy Vehicle Weights and Dimensions, Ann Arbor, MI, USA.
  • Bodin, D., Grenfell, J. R., & Collop, A. C. (2009). Comparison of small and large scale wheel tracking devices. Road Materials and Pavement Design, 10, 295–325. doi:10.1080/14680629.2009.9690248
  • Chen, X., Huang, B., & Xu, Z. (2007). Comparison between flat rubber wheeled loaded wheel tester and asphalt pavement analyzer. Road Materials and Pavement Design, 8(3), 595–604.
  • Di Benedetto, H., Gabet, T., Grenfell, J., Perraton, D., Sauzeat, C., & Bodin, D. (2013). Mechanical testing of bituminous mixtures. In M. N. Partl, H. U. Bahia, F. Canestrari, C. de la Roche, H. Di Benedetto, H. Piber, & D. Sybilski (Eds.), Advances in interlaboratory testing and evaluation of bituminous materials. Report of the RILEM TC 206-ATB (pp. 143–256). Netherlands: Springer.
  • Drakos, C. A., Roque, R., & Birgisson, B. (2001). Effect of measured tyre contact stresses on near-surface rutting. Transportation Research Record, 1764, 59–69.
  • Erlingsson, S., & Ahmed, A. W. (2013). Fast layered elastic response program for analysis of flexible pavement structures. Road Materials and Pavement Design, 14(1), 196–210.
  • Erlingsson, S., Said, S. F., & McGarvey, T. (2012). Influence of heavy traffic lateral wander on pavement deterioration. Proceedings of the 4th European Pavement Asset Management Conference, Malmö, Sweden.
  • Guo, R., & Prozzi, J. A. (2009). A statistical analysis of Hamburg wheel tracking device testing results. Road Materials and Pavement Design, 10, 327–335. doi:10.1080/14680629.2009.9690249
  • Hong, F., & Chen, D. (2009). Calibrating mechanistic–empirical design guide permanent deformation models based on accelerated pavement testing. Journal of Testing and Evaluation, 37(1), 31–39.
  • Hopman, P. C., Kunst, P. A. J. C., & Pronk, A. C. (1991). Asphalt research in the Netherlands. Proceedings of the Conference Strategic Highway Research Program and Traffic Safety on Two Continents (pp. 105–124). Gothenburg, Sweden.
  • Kandhal, P. S., & Cooley, L. A. (2003). NCHRP report 508: Accelerated laboratory rutting tests: Evaluation of the asphalt pavement analyser. Transportation Research Board, National Research Council, Washington, DC
  • Kim, Y. R., Seo, Y., King, M., & Momen, M. (2004). Dynamic modulus testing of asphalt concrete in indirect tension mode. Journal of the Transportation Research Board, 1891, 163–173.
  • Lytton, R. L., Uzan, J., Fernando, E. G., Roque, R., Hiltumen, D., & Stoffels, S. M. (1993). Development and validation of performance prediction model and specifications for asphalt binders and paving mixes (Report No. SHRP-A-357). Washington, DC: The Strategic Highway Research Program Project.
  • Myers, L. A., Roque, R., Ruth, B. E., & Drakos, C. A. (1999). Measurement of contact stresses for different truck tyre types to evaluate their influence on near-surface cracking and rutting. Transportation Research Record, 1655, 175–184.
  • NCHRP 1–37. (2004). A guide for mechanistic–empirical design of new and rehabilitated pavement structures ( Final report). Washington, DC: NCHRP, ARA and ERES Consultants Division.
  • Oscarsson, E. (2011). Evaluation of the mechanistic-empirical pavement design guide model for permanent deformation in asphalt concrete. International Journal of Pavement Engineering, 12(1), 1–12.
  • Perraton, D., Di Benedetto, H., Sauzeat, C., De La Roche, C., Bankowski, W., Partl, M., & Grenfell, J. (2011). Rutting of bituminous mixtures: Wheel tracking tests campaign analysis. Material and Structures, 44, 969–986.
  • Saevarsdottir, T., & Erlingsson, S. (2014). Modelling of responses and rutting profile of a flexible pavement structure in an HVS. Road Materials and Pavement Design. doi:10.1080/14680629.2014.939698
  • Saevarsdottir, T., Erlingsson, S., & Carlsson, H. (2014). Instrumentation and performance modelling of heavy vehicle simulator tests. International Journal of Pavement Engineering. doi:10.1080/10298436.2014.972957
  • Said, S. F. (2004). Prediction of flow rutting. International symposium on Long Lasting Asphalt Pavements, ISAP, Auburn.
  • Said, S. F., Hakim, H., & Oscarsson, E. (2013). Rheological characterization of asphalt concrete using a shear box. Journal of Testing and Evaluation, 41(4), 602–610. doi:10.1520/JTE20120177
  • Said, S. F., Jacobson, T., Hornwall, F., & Wahlström, J. (2000). Evaluation of permanent deformation in bituminous mixes. Proceedings of 2nd Euroasphalt & Eurobitume Congress, Barcelona, Spain.
  • Wiman, L. G. (2006). Accelerated load testing of pavements: HVS-NORDIC tests at VTI Sweden 2003–2004 (VTI report 544A). Linköping: Swedish National Road and Transport Research Institute.
  • Wiman, L. G., & Erlingsson, S. (2008, April 21–24). Accelerated pavement testing by HVS – Trans-national testing equipment. Transport Research Arena Europe, Ljubljana, CD_ROM.
  • Wu, R., & Harvey, J. T. (2008, October). Evaluation of the effect of wander on rutting performance in HVS tests. Third international conference on Accelerated Pavement Testing, Madrid, Spain.

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