International Journal of Highway Engineering (한국도로학회논문집)

Korean Society of Road Engineers (한국도로학회)
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A Study of Warm-Mix Asphalt's Bonding Properties on the Change of Asphalt Film Thicknesses

아스팔트 피막두께 변화에 따른 중온 아스팔트의 접착성질에 관한 연구

  • Received : 2011.07.05
  • Accepted : 2011.10.17
  • Published : 2011.12.15
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Abstract

Warm-Mix Asphalt(WMA) technologies have been developed since 15 years ago, which are internationally and domestically concerned with energy-saving and environmental-friendly technologies in public and private sectors of highway engineering. The performance of asphalt mass is traditionally evaluated by the penetration, viscosity, or Superpave tests. This research, however, is focused more on the properties depending on asphalt film thicknesses instead of evaluating asphalt mass behaviors by those tests. For this approach, a new testing protocol and analysis method are described by the bonding properties on each film thickness. This testing method and analysis tool are borrowed from those of DSR Moisture Damage test and applied by using ARES. The analysis results indicate that there is a limit film thickness between $200{\mu}m$ and $400{\mu}m$, which causes significant changes of the properties. In addition, the results show that the property changes of Hot-Mix Asphalt(HMA) and WMA on the limit film thickness are also different. Therefore, it is suggested that the properties on thin film thicknesses between $200{\mu}m$ and $400{\mu}m$ should be considered in order to evaluate WMA properly.

15년 정도의 짧은 역사를 가지고 있는 중온 아스팔트 포장은 국내·외적으로 현재 가장 관심대상이 되는 에너지 절약과 환경보호를 추구하는 도로건설분야의 그린기술이다. 본 연구는 이러한 중온 아스팔트의 물성평가를 아스팔트 덩어리 전체 거동으로 고려한 기존 침입도, 점도, 그리고 수퍼페이브에 의한 아스팔트 시험방식으로부터 벗어나 아스팔트 피막두께에 따른 물성평가로 시각을 바꾸어 새로운 프로토콜을 제시하고 결과분석에 따른 새로운 평가기준제안을 하는 것이 목적이다. 이를 위해 기존에 개발한 DSR Moisture Damage의 실험 및 분석의 기본틀을 ARES장비를 통해 각 피막두께별 물성을 측정하고 분석하였다. 분석결과를 통해 $200{\mu}m$$400{\mu}m$ 사이에 물성의 급격한 변화를 볼 수 있는 한계피막두께가 존재하고 또한 가열아스팔트와 중온아스팔트가 가지고 있는 한계피막두께근처에서 발생하는 물성의 급격한 변화가 서로 다르다는 것을 확인할 수 있었다. 이런 결과를 통해 기존 가열 아스팔트와 성질이 다른 중온 아스팔트를 제대로 평가하기 위해서는 $200{\mu}m$$400{\mu}m$ 사이 피막두께의 물성평가를 고려해야한다는 것을 제안한다.

Keywords

References

  1. 조동우, 황성도, 임광수(2009). "유럽의 저탄소 중온 아스팔트 포장(WMA)의 기술현황", 한국도로학회지, 제11권 2호, pp.20-25
  2. Anderson, D. A., Button, J. et al.(1994). "Binder Characterization and Evaluation Volume 3: Physical Characterization." Strategic Highway Research Program, National Research Council, Washington, D.C.
  3. Bahia, H. U., Hanson, D. I., Zeng, M., Zhai, H., Khatri, M. A. and Anderson, R. M. (2001). "Characterization of modified asphalt binders in superpave mix design." In: National Cooperative Highway Research Program NCHRP Report 459. Transportation Research Board-National Research Council, National Academy Press, Washington DC
  4. Boldin, M. G., DongrE, R. and D'Angelo, J.(2001). "Proposed refinement to the superpave high temperature specification parameter for performance graded binders", Transportation Research Record, No. 1766, pp.40-46
  5. Campen, W.H., Smith, J.R., Erickson, L.G.and Mertz, L.R. (1959). "The relationship between voids, surface area, film thickness and stability in bituminous paving mixtures" Proc Assoc Asph Pav Tech, Vol 28, P 149, Proceedings Association of Asphalt Paving Technologists, Seattle
  6. Chabert, D, Triquigneaux, J-P, and Vaniscote, J-C (1999). "Rheology of elastomer binders and rutting resistance of bituminous mixes." In: Proceedings of the Eurobitume workship 99, European asphalt association, The Netherlands, Paper No.028
  7. Cho, D.W., Bahia, H. U.(2007). "Effect of Aggregates' Surface and Water on Rheology of Asphalt Films." Transportation Research Record: Journal of the Transportation Research Board, No 1998, TRB, National Research Council, Washington, D.C., pp.10-17
  8. Cho, D.W.(2008). "Study of Asphalt-Aggregate Bond in Simple Simulation Using the Dynamic Shear Rheometer" Ph.D Dissertation, University of Wisconsin, Madison, WI
  9. Philips, M.C., and Robertus, C.(1996). "Binder rheology and asphaltic pavement permanent deformation; the zero-shear viscosity." In: Proceedings of the Eurasphalt & Eurobitume Congress, European Asphalt Association, The Netherlands
  10. Read, J. and Whiteoak, D.(2003). The Shell Bitumen Handbook, 5th edition, Shell Bitumen
  11. Rowe, G.M., D'Angelo, J., Sharrock, M.J.(2002). "Use of the zero shear viscosity as a parameter for the high temperature binder specification parameter." 3rd international symposium on binder rheology and pavement performance, San Antonio, TX
  12. Shenoy, A., Discussion on the paper by Bouldin, M. G., DongrE R, D'Angelo, J. titled (2001) "Proposed refinement to the superpave high temperature specification parameter for performance graded binders." Transportation Research Record, No. 1766, pp.46-47
  13. Shenoy, A.(2001) "Refinement of the superpave specification parameter for performance grading of asphalt" J. Transportation Eng 127(5), pp357-362 https://doi.org/10.1061/(ASCE)0733-947X(2001)127:5(357)
  14. Stuart, K.D. and Mogawer. W.S.(1997). "Validation of asphalt binder and mixture tests that predict rutting susceptibility using FHWA accelerated loading facility." J Assoc Asphalt Paving Technol 66, pp.109-152

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