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Curing Practices for Concrete Pavements (2023)

Chapter: References

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Page 63
Suggested Citation:"References." National Academies of Sciences, Engineering, and Medicine. 2023. Curing Practices for Concrete Pavements. Washington, DC: The National Academies Press. doi: 10.17226/26943.
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Page 64
Suggested Citation:"References." National Academies of Sciences, Engineering, and Medicine. 2023. Curing Practices for Concrete Pavements. Washington, DC: The National Academies Press. doi: 10.17226/26943.
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Below is the uncorrected machine-read text of this chapter, intended to provide our own search engines and external engines with highly rich, chapter-representative searchable text of each book. Because it is UNCORRECTED material, please consider the following text as a useful but insufficient proxy for the authoritative book pages.

63   References 1. Guide to External Curing of Concrete. ACI 308R-16. ACI, Farmington Hills, Michigan, May 2016. 2. Guide for Construction of Concrete Pavements. ACI 325.9R-15. ACI, Farmington Hills, Michigan, August 2015. 3. Powers, T. C. A Discussion of “Cement Hydration in Relation to the Curing of Concrete.” Proceedings of the Highway Research Board, Vol. 27, 1948, pp. 178–188. 4. Neville, A. M. Properties of Concrete, 4th ed. Wiley, New York, New York, 1996. 5. Al-Fadhala, M., and Hover, K. C. Rapid Evaporation from Freshly Cast Concrete and the Gulf Environment. Construction & Building Materials, Vol. 15, No. 1, 2001, pp. 1–7. 6. Wojakowski, J. Report to ACI Committee 308 on Effect of Plastic Covering on Variations in Concrete Surface Temperature. Kansas DOT, Topeka, Kansas, Nov. 1999. 7. Curing Concrete Paving Mixtures. FHWA-HIF-18-015. FHWA Tech Brief, FHWA, U.S. Department of Transportation, 2018. 8. Menzel, C. A. Causes and Prevention of Crack Development in Plastic Concrete. Proceedings of the Portland Cement Association, Chicago, Illinois, 1954, pp. 130–136. 9. Taylor, P. C., Kosmatka, S. H., Voigt, G. F., Ayers, M. E., Davis, A., Fick, G. J., Grove, J., Harrington, D., Kerkhoff, B., Ozyildirim, H. C., Shilstone, J. M., Smith, K., Tarr, S., Tennis, P. D., Van Dam, T. J., and Waalkes, S. Integrated Materials and Construction Practices for Concrete Pavements: A State-of-the-Practice Manual. FHWA-HIF-07-004. Federal Highway Administration, Washington, DC, 2007. 10. Shariat, S. M. S., and Pant, P. D. Curing and Moisture Loss of Grooved Concrete Surfaces. Transportation Research Record: Journal of the Transportation Research Board, Issue 1040, 1985, pp. 40–44. 11. Cordon, W. A., and Thorpe, J. D. Control of Rapid Drying of Fresh Concrete by Evaporation Control. ACI Journal Proceedings, Vol. 62, No. 8, 1965. 12. Transportation Research Board. Curing of Concrete Pavements. Transportation Research Circular, Issue 208, 1979, https://onlinepubs.trb.org/Onlinepubs/trcircular/208/208.pdf. 13. Concrete Pavement Construction. Florida DOT Specification 350. Florida DOT Standard Specifications for Road and Bridge Construction, 2022. 14. Guide to Hot Weather Concreting. ACI 305R-20. ACI, Farmington Hills, Michigan, September 2020. 15. ASTM C309-11. Standard Specification for Liquid Membrane-Forming Compounds for Curing Concrete. Last Updated: Aug. 22, 2019. 16. AASHTO M 148. Liquid Membrane-Forming Compounds for Curing Concrete. 2005. 17. ASTM C1315. Standard Specification for Liquid Membrane-Forming Compounds Having Special Prop- erties for Curing and Sealing Concrete. June 15, 2019. 18. ASTM C156-11. Standard Test Method for Water Loss from a Mortar Specimen Through Liquid Membrane- Forming Curing Compounds for Concrete. 19. Mather, B. Curing of Concrete. Lewis H. Tuthill International Symposium on Concrete and Concrete Construction, SP-10, ACI, Farmington Hills, Michigan, 1987, pp. 145–159. 20. Department of Defense. Standard Practice for Concrete Pavements. UFC 3-250-04. Unified Facilities Criteria, Jan. 2004. 21. Guidelines for Bonded Concrete Overlays. Technical Bulletin TB007P, American Concrete Pavement Asso- ciation, Rosemont, Illinois, 1990. 22. Ruiz, J. M., Garber, S., and Dick, J. C. Computer-Based Guidelines for Concrete Pavements. FHWA- HRT-14-087. HIPERPAV III®, Version 3.3 User’s Manual, FHWA, U.S. Department of Transportation, 2015. 23. Armaghani, J., Larsen, T.J., and Smith, L.L. Temperature Response of Concrete Pavements. Transportation Research Record: Journal of the Transportation Research Board, Issue 1121, 1987, pp. 23–33. 24. Hiller, E., Springenschmid, R., and Fleischer, W. The Influence of the Curing Method on Early Cracking Risk During Hot Weather Paving. 9th International Symposium on Concrete Roads, Istanbul, Turkey, 2004.

64 Curing Practices for Concrete Pavements 25. Ytterberg, R. Shrinkage and Curling of Slabs on Grade. Parts I, II, and III. Concrete International, Vol. 9, Nos. 4, 5, and 6, 1987. 26. Report on Accelerated Techniques for Concrete Paving. ACI, Farmington Hills, Michigan, March 2019. 27. Kosmatka, S. H., and Wilson, M. L. Design and Control of Concrete Mixtures, 15th ed. Portland Cement Associa- tion, Skokie, Illinois, 2011. 28. ASTM C1074-17. Standard Practice for Estimating Concrete Strength by the Maturity Method. 2019. Last Updated: Aug. 07, 2019. 29. Delatte, Norbert J. Optimizing Concrete Pavement Opening to Traffic. MAP Brief, National Concrete Pave- ment Technology Center, Winter 2021–2022. 30. Grove, J. Blanket Curing to Promote Early Strength Concrete. Research Project MLR-87-7. Iowa DOT, Ames, IA, 1989. 31. Guide to Cold Weather Concreting. ACI 306R-16. ACI, Farmington Hills, Michigan, Sep. 2016. 32. Temperature Management of Slabs. Final Report (b), Special Project 201, FHWA, Washington, DC, 1994. 33. Mather, B. Curing Compounds. Concrete International, Vol. 12, No. 2, Feb. 1990. 34. Kosmatka, S., and Wilson, M. L. Design and Control of Concrete Mixtures, 16th ed. Portland Cement Asso- ciation, Skokie, Illinois, 2016. 35. Castro, J., De la Varga, I., Golias, M., & Weiss, W. Extending Internal Curing Concepts to Mixtures Contain- ing High Volumes of Fly Ash. Proceedings of the International Concrete Bridge Conference, Phoenix, Arizona, 2010. 36. Weiss, W. J., and Morian, D. Review of Internally Cured Concrete as it Relates to Pavements. (No. 17-03454). Transportation Research Board Annual Meeting, Washington DC, 2017. 37. Report on Internally Cured Concrete Using Pre-Wetted Absorptive Lightweight Aggregate. ACI (308-213) R-13. ACI, Farmington Hills, Michigan, 2013. 38. Joshaghani, A., Bhardwaj, R., Zollinger, D. G., and Mukhopadhyay, A.K. Investigating the Effects of Curing Quality on Key Concrete Pavement Surface Properties. Transportation Research Record: Journal of the Transpor- tation Research Board, Vol. 2673, Issue 11, 2019, pp. 71–80. 39. Joshaghani, A., and Zollinger, D. G. Concrete Pavements Curing Evaluation with Non-destructive Tests. Con- struction and Building Materials, Vol. 154, 2017, pp. 1250–1262. 40. Joshaghani, A., and Zollinger D. G. Assessment of Concrete Pavement Set Gradient Based on Analysis of Slab Behavior and Field Test Data. Transportation Research Record: Journal of the Transportation Research Board, Vol. 2673, Issue 11, pp. 512–523. 41. Chen, S., You, Z., Sharifi, N. P., Yao, H., and Gong, F. Material Selections in Asphalt Pavement for Wet-freeze Climate Zones: A Review. Construction and Building Materials, Volume 201, 2019, pp. 510–525.

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Curing is a major contributor to the short- and long-term performance of concrete pavements. Effective curing controls moisture loss and maintains adequate temperature of concrete pavements to allow for the continuation of cement hydration and formation of hydrated gel necessary to develop desired strength and durability.

The TRB National Cooperative Highway Research Program's NCHRP Synthesis 598: Curing Practices for Concrete Pavements documents state department of transportation curing procedures, curing material types used, application rates, the timing of curing, and specific measures adopted when paving under adverse weather conditions.

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