DOI QR코드

DOI QR Code

A Study on the Minimization of Water Damage for the Asphalt Inlay of Old Concrete Pavement

노후 콘크리트 포장 절삭 덧씌우기의 침투수에 의한 파손 최소화 방안 연구

  • 강원평 (한국건설기술연구원 도로교통연구실) ;
  • 염광재 ((주)삼우IMC) ;
  • 서영찬 (한양대학교 교통공학과) ;
  • 이경하 (한국도로공사 도로교통연구원 도로연구실) ;
  • 강민수 (한국도로공사 도로교통연구원 도로연구실)
  • Received : 2013.04.23
  • Accepted : 2013.06.05
  • Published : 2013.08.16

Abstract

PURPOSES: The purpose of this study was to investigate the disintegration mechanism of concrete due to the infiltration of the moisture to the milling overlay pavement and to come up with a method to minimize the disintegration as well as verifying the effectiveness of the edge sealing and Fogseal method. METHODS : This study investigated the distress mechanism due to the infiltrated moisture remaining in the milling overlay pavement through chloride freezing test and verified the effectiveness of the sealing of the milling edge and fog seal methods, which have been devised to minimize the moisture infiltration, through laboratory water permeability test. Additionally, long-term pavement performance was compared for the effectiveness of the proposed method through under loading test, and field water permeability test was carried out to verify the field applicability of the proposed method. RESULTS: The result of the research confirmed that chloride deteriorates the concrete surface through disintegration and lowers its strength and that the laboratory moisture infiltration test verified the effectiveness of the milling edge sealing and fog seal methods in the deterrence of moisture infiltration to the overlay pavement with excellent long-term performance of the pavement treated with the proposed method. Although the field water permeability test revealed some deterrence of moisture infiltration of the milling edge sealing and fog seal methods to a certain extent, the difference was a little. CONCLUSIONS: The milling edge sealing and fog seal methods are limited in their effectiveness for the cases of improvident compaction management or mixture with large void, and it is believed that installation of subsurface drainage is more effective in these cases.

Keywords

References

  1. Kang, M. S.(2011), Distribution of chloride in concrete pavement subjected to de-icing salts and its effect on the failure of asphalt overlay, Hanyang Univ master's degree dissertation
  2. Suh, Y. C. et al.(2011), The load simulation study of concrete pavement overlay section(1st year) final report, Korean Society of Road Engineers
  3. The Korea Expressway Corporation Research Institute of the Korea Expressway Corporation(2007), Influence and control of chloride salt on concrete structures with different type of deicing agent
  4. Han, S. H., Hong, S. H., Yoo, T. S. and Park, S. W.(2008), Development of Rehabilitation Guides on the Structural Performance Restoration Procedures for Old Concrete Pavement, The Korea Expressway Corporation Research, Institute of the Korea Expressway Corporation
  5. Johnson, Ann(2000), Asphalt Pavement Maintenance, Best Practice Handbook, Minnesota Technology Transfer Center, pp 38-39
  6. Marchand, E., Sellevold, J., and Pigeon M.(1994)," The Deicer Salt Scaling Deterioration of Concrete-An Overview", ACI Special Publication SP-145, p 46
  7. Pigeon, M. and Marchand, J.(1996), "Frost Resistance of Roller-Compacted Concrete", Concrete International, pp 22-26
  8. Suh, Y. C.(2012), Current Issues of Concrete Pavement in Korea, 2012 International Pavement Engineering Conference, KSRE
  9. Watson, Mark(2009), Longitudinal Joint Fog Seal Test Sections, Minnesota Department of Transportation