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Road Materials and Pavement Design Volume 18, 2017 - Issue 4
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Original Articles

Utilising intelligent compaction meter values to evaluate construction quality of asphalt pavement layers

Wei HuDepartment of Civil and Environmental Engineering, The University of Tennessee, Knoxville, TN, 37996, USAView further author information
,
Baoshan HuangDepartment of Civil and Environmental Engineering, The University of Tennessee, Knoxville, TN, 37996, USACorrespondence[email protected]
View further author information
,
Xiang ShuDepartment of Civil and Environmental Engineering, The University of Tennessee, Knoxville, TN, 37996, USAView further author information
&
Mark WoodsDivision of Materials and Tests, Tennessee Department of Transportation, 6601 Centennial Blvd., Nashville, TN, 37243, USAView further author information
Pages 980-991 | Received 24 Nov 2015, Accepted 23 May 2016, Published online: 23 Jun 2016

References

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  • Anderegg, R., & Kaufmann, K. (2004). Intelligent compaction with vibratory rollers: Feedback control systems in automatic compaction and compaction control. Transportation Research Record: Journal of the Transportation Research Board, 1868(1), 124–134. doi: 10.3141/1868-13
  • Andrei, D., Witczak, M. W., & Mirza, M. W. (1999). Development of a revised predictive model for the dynamic (complex) modulus of asphalt mixtures. Development of the 2002 Guide for the Design of New and Rehabilitated Pavement Structures, NCHRP.
  • Brandl, H., & Adam, D. (1997). Sophisticated continuous compaction control of soils and granular materials. Proceedings 14th International Conference on Soil Mechanics and Foundation Engineering. Hamburg, Germany, 1–6.
  • Farrar, M., Harnsberger, P., Thomas, K., & Wiser, W. (2006). Evaluation of oxidation in asphalt pavements test sections after four year of service. Paper presented at the International Conference on Perpetual Pavement. Western Research Institute.
  • Floss, R., Bräu, G., & Gahbauer, M. (1991). Dynamische Verdichtungsprüfung bei Erd-und Straßenbauten [Dynamic Compaction Testing in Earth and Road Construction]. Forschung Straßenbau und Straßenverkehrstechnik (612).
  • Kröber, W., Floss, R., & Wallrath, W. (2001). Dynamic soil stiffness as quality criterion for soil compaction. Geotechnics for roads, rail tracks, and earth structures, 188–199.
  • Mooney, M. A., Rinehart, R. V., Facas, N. W., Musimbi, O. M., White, D. J., & Vennapusa, P. K. R. (2010). Intelligent soil compaction systems. NCHRP 21-09 Final Report, National Cooperative Highway Research Program, Washington, DC.
  • Nieves, A. (2013). Intelligent compaction. Summary of intelligent compaction for HMA/WMA Paving. No. FHWA-HIF-13-053.
  • Sandström, Å. (1994). Numerical simulation of a vibratory roller on cohesionless soil. Internal Report, Geodynamik, Stockholm, Sweden.
  • Sandström, A. J., & Pettersson, C. B. (2004). Intelligent systems for QA/QC in soil compaction. Paper presented at the Proc., 83rd Annual Transportation Research Board Meeting, 11–14.
  • Thurner, H., & Sandstrom, A. (2000). Continuous compaction control, CCC. Paper presented at the European Workshop Compaction of Soils and Granular Materials, Presses Ponts et Chaussées, Paris, France, 237–246.
  • Thurner, H. F. (2001). Quality assurance and self control in road construction advanced measurement technology. Paper presented at the Proc. 4th International Symposium “Infrastructure Construction Systems and Technologies”, Munich, Bauma, 73–81.
  • White, D. J., Vennapusa, P., Gieselman, H., Zhang, J., Goldsmith, R., Johanson, L., & Quist, S. (2008). Accelerated implementation of intelligent compaction technology for embankment subgrade soils, aggregate base, and asphalt pavement materials. Federal Highway Administration/Transportation Pooled Fund (TPF) No. 954, Washington, DC.
  • White, D. J., Vennapusa, P., & Thompson, M. J. (2007). Field validation of intelligent compaction monitoring technology for unbound materials. Report No. MN/RC 2007-10, Minnesota Department of Transportation, St. Paul, MN.
  • Wiser, L. (2010). LTPP Computed Parameter: Dynamic Modulus. No. FHWA-HRT-11-018.

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