한국도로학회논문집 (International Journal of Highway Engineering)

  • 제15권5호
  • /
  • Pages.11-20
  • /
  • 2013
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  • 1738-7159(pISSN)
  • /
  • 2287-3678(eISSN)
한국도로학회 (Korean Society of Road Engineers)
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콘크리트 포장의 내구성 향상을 위한 양생제 시공기술 최적화 연구

A Study on the Optimization of Curing Technology for Improving Properties of Concrete Pavement

  • 박권제 (한국도로공사 교통본부) ;
  • 류성우 (한국도로공사 도로교통연구원) ;
  • 김형배 (한국도로공사 도로교통연구원) ;
  • 주영민 (중앙대학교 공과대학 사회기반시스템공학부) ;
  • 조윤호 (중앙대학교 공과대학 사회기반시스템공학부)
  • 투고 : 2013.03.27
  • 심사 : 2013.10.02
  • 발행 : 2013.10.15
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초록

PURPOSES : This study is to suggest time to spray curing compound, the amount of curing compound, and the number of times to spray curing compound based on indoor tests. METHODS : Based on the literature review, two methods are used in this study, One is test for water retention of concrete curing material and the other is test for abrasion resistance of concrete surfaces by the rotating-cutter method. Through those methods, curing compound was evaluated. RESULTS : The result of the laboratory experiment for time to spray curing compound indicates that 30 minutes after placing concrete is optimal. For the amount of curing compound, $0.5{\ell}/m^2$ is the minimum quantity for both concretes. Through test of the number of times to spray curing compound, method to spray the whole amount of curing compound in twice is more efficient than it to spray the whole amount at a time. Also, method of separately 30-50 minutes spray is better than method of separately 10-30 minutes spray. CONCLUSIONS : From the testing results, it can be proposed that optimum time to curing compound is $30{\pm}15$ minutes, $0.5{\ell}/m^2$ is efficient for spraying the whole amount of curing compound at a time, and $0.4{\ell}/m^2$ is the best for spraying the whole amount of curing compound in twice, which sprays it in 20 minutes after 30 minutes from placing concrete.

키워드

참고문헌

  1. ACI, Guide to Curing Concrete, ACI 308R-01, 2001.
  2. ASTM C156, Standard Test Method for Water Retention by Concrete Curing Materials, 2005.
  3. ASTM C944, Standard Test Method for Abrasion Resistance of Concrete or Mortar Surfaces by the Rotating-Cutter Method, 2005.
  4. ASTM C1202, Standard Test Method for Electrical Indication of Concrete's Ability to Resist Chloride Ion Penetration, 2005.
  5. ASTM C1585, Standard Test Method for Measurement of Rate of Absorption of Water by Hydraulic-Cement Concretes, 2004.
  6. FHWA, Guide For Curing Of Portland Cement Concrete Pavements, 2006.
  7. Highway Agency, Manual of Contract Documents for Highway Works Volume 1 Specification for Highway Works, Series 1000, 2006.
  8. Kim YoungDoo, Application Study on Admixture and Curing Materials for Durability Cocnrete Pavement, 2010.
  9. Korea Expressway Corporation, Specification for Highway Works (Civil Engineering Part), 1998
  10. Korea Expressway Corporation, Specification for Highway Works (Civil Engineering Part), 2005.
  11. Korea Expressway Corporation, Specification for Highway Works (Civil Engineering Part), 2009.
  12. KS F 2405, Standard Test Method for Compressive Strength of Concrete, 2010.
  13. KS F 2406, Standard Test Method for Water Retention of Concrete Curing Material, 2009.
  14. KS F 2408, Method of Test for Flexural Strength of Concrete, 2010.
  15. KS F 2414, Method of Test for Bleeding of Concrete, 2010.
  16. KS F 2424, Testing Method for Length Change of Mortar and Concrete, 2010.
  17. KS F 2730, Testing Method for Rebound Number to Conclude Compressive Strength of Concrete, 2008.
  18. KS F 2437, Testing Method for Dynamic Modulus of Elasticity, Rigidity and Dynamic Poisson's Ratio of Concrete Specimens by Resonance Vibration, 2008.
  19. Lee MinKyung, A Study on the Abrasion Resistance Evaluation Method and Mix Design of Interlocking Concrete Block for Highway, 2011.
  20. Ministry of Construction Transportation, Standard for Concrete, 2003.
  21. Ministry of Land, Infrastructure, Transportation and Tourism, Standard of Reinforced Concrete, JASS 5, 1997.
  22. Ministry of Land, Transportation and Maritime Affairs, Standard of Production and Construction for Cement Concrete Pavement, 2009.
  23. Texas Department of Transportation, Pavement Design Guide, 2008.
  24. Yang, Sung-Chul, Ahn, Nam-Shik, Choi, Dong-Uk, Kang, Seong- Min, "Drying Shrinkage of Concretes according to Different Volume-Surface Ratios and Aggregate Types, KSRE, Volume 6-4, pp.109-121, 2004.