References
- American Concrete Institute (ACI). (2008). Guide for conducting a visual inspection of concrete in service. ACI Committee Report 201.1R-08.
- Barrett T. J., Miller, A., & Weiss, J. (2013). Documentation of the INDOT experience and construction of the bridge decks containing internal curing in 2013. Technical Report SPR 3752. Joint Transportation Research Program, Indiana Department of Transportation and Purdue University, West Lafayette, IN.
- Bentur, A., Igarashi, S.-I., & Kovler, K. (2001). Prevention of autogenous shrinkage in high strength concrete by internal curing using wet lightweight aggregates. Cement and Concrete Research, 31(11), 1587-1591. https://doi.org/10.1016/S0008-8846(01)00608-1
- Bentz D. P., & Weiss W. J. (2011). Internal curing: A 2010 stateof-the-art review. National Institute of Standards and Technology Report NISTIR 7765.
- Cady, P. D., & Carrier, R. E. (1971). Final report on durability of bridge deck concrete: Part 1: Effect of construction practice on durability. PennDOT Contract No. 31057-H. University Park, PA: Pennsylvania State University.
- Cady, P. D., Carrier, R. E., Bkar, T., & Theisen, J. C. (1971). Final report on durability of bridge deck concrete: Part 3: Condition of 249 four year old bridge decks. PennDOT Contract No. 31057-H. University Park, PA: Pennsylvania State University.
- Cavalline, T., Kitts, A., & Calamusa, J. (2013). Durability of lightweight concrete bridge decks-field evaluation. Final Report, North Carolina Department of Transportation Research Project No. 2011-06. Report No. FHWA/NC/2011-06.
- Chariton, T., & Weiss, W.J. (2002). Using acoustic emission to monitor damage development in mortars restrained from volumetric changes. Concrete: Material science to application, a tribute to Surendra P. Shah, SP-206, (pp 205-219). American Concrete Institute, Farmington Hills, MI.
- Cheng, T. T.-H. & Johnston, D. W. (1985). Incidence assessment of transverse cracking in concrete bridge decks: Construction and material considerations, Vol. 1. Report No. FHWA/NC/85-002, North Carolina State University, Raleigh, NC.
- Chini, A. R., Muszynski, L. C. & Hicks, J. (2003). Determination of acceptance permeability characteristics for performance-related specifications for portland cement concrete. Report submitted to Florida Department of Transportation, July 11, 2003.
- Crowl, D., & Sutak, M. (2002). A survey of high performance concrete bridge decks, Vol. IV. Ohio Department of Transportation District 12, Garfield Heights.
- Darwin, D., Browning, J., & Lindquist, W. D. (2004). Control of cracking in bridge decks: Observations from the field. Cement, Concrete and Aggregates, 26(2), 148-154. https://doi.org/10.1520/CCA12320
- Delatte, N., Crowl, D., & Mack, E. (2007a). Reducing cracking of high performance concrete bridge decks. In Proceedings of Transportation Research Board 2007 Annual Meeting.
- Delatte, N., Mack, E., & Cleary, J. (2007b). Evaluation of high absorptive materials to improve internal curing of low permeability concrete. FHWA Report No. FHWA/OH-2007/06. Washington, DC: Federal Highway Administration.
- ElSafty, A., & Abdel-Mohti, A. (2013). Investigation of likelihood of cracking in reinforced concrete bridge decks. International Journal of Concrete Structures and Materials, 7(1), 79-93. https://doi.org/10.1007/s40069-013-0034-3
- Geiker, M. R., Bentz, D. P., & Jensen, O .M. (2004). Mitigating autogenous shrinkage by internal curing. High-performance structural lightweight concrete. Proceedings of ACI fall convention, 2004.
- Guthrie, W. S., & Yaede, J. M. (2013). Internal Curing of Concrete Bridge Decks in Utah: Preliminary Evaluation. In Proceedings of the 92nd annual meeting of the Transportation Research Board, Washington, DC.
- Hadidi, R., & Saadeghvaziri, M. A. (2005). Transverse cracking of concrete bridge decks: State-of-the-art. Journal of Bridge Engineering, 10(5), 503-510. https://doi.org/10.1061/(ASCE)1084-0702(2005)10:5(503)
- Hammer, T. A., Bjontegaard, O., & Sellevold, E. J. (2004). Internal curing-Role of absorbed water in aggregate. High-performance structural lightweight concrete. Proceedings of American Concrete Institute Fall Convention, 2004.
- Harmon, K. S. (2005). Recent research projects to investigate mechanical properties of high-performance lightweight concrete. Seventh international symposium on the utilization of high strength/high-performance concrete, American Concrete Institute, MI.
- Huitema, B. E. (1980). The analysis of covariance and alternatives. Hoboken: Wiley.
- Issa, M. (1999). Investigation of cracking in concrete bridge decks at early ages. Journal of Bridge Engineering, 4(2), 116-124. https://doi.org/10.1061/(ASCE)1084-0702(1999)4:2(116)
- Jones, W. A., House, M. W., & Weiss, W. J. (2014). Internal curing of high performance concrete using lightweight aggregates and other techniques. Final Report, Colorado Department of Transportation, CDOT-2014-3, Feb 2014.
- Krauss, P. D., & Rogalla, E. A. (1996). Transverse cracking in newly constructed bridge decks. National Cooperative Highway Research Program Report 380. Washington, DC: Transportation Research Board.
- McKeel, W. T. (1985). Evaluation of deck durability on continuous beam highway bridges. Report No. VHTRC 85-R32, Virginia Highway and Transportation Research Council, Charlottesville, VA.
- Neville, A. M. (1995). Properties of concrete (4th ed.). New York: Pearson Education.
- Ozyildirim, C. (2008). Durability of structural lightweight concrete. 2008 Concrete Bridge Conference, Federal Highway Administration, National Concrete Bridge Council, Missouri Department of Transportation, American Concrete Institute.
- Perfetti, G. R., Johnston, D. W., & Bingham, W .L. (1985). Incidence assessment of transverse cracking in concrete bridge decks: Structural considerations, Vol. 2. Report No. FHWA/NC/8802, North Carolina State University, Raleigh, NC.
- Ramirez, J., Olek, J., Rolle, E., & Malone, B. (2000). Performance of bridge decks and girders with lightweight aggregate concrete. Report FHWA/IN/JTRP-98/17, Joint Transportation Research Program, Purdue University, West Lafayette, IN.
- Reinhardt, H. (2008). Comparative performance tests and validation of NDT methods for concrete testing. Journal of Nondestructive Evaluation, 27(1-3), 59-65. https://doi.org/10.1007/s10921-008-0037-1
- Russell, H. G., Miller, R. A., Ozyildirim, H. C., & Tadros, M. K. (2006). Compilation and evaluation of results from highperformance concrete projects, Vol. I: Final report. Federal Highway Administration. Report No. FHWA-HRT-05-056.
- Saadeghvaziri, M. A., & Hadidi, R. (2005). Transverse cracking of concrete bridge decks: effects of design factors. Journal of Bridge Engineering, 10(5), 511-519. https://doi.org/10.1061/(ASCE)1084-0702(2005)10:5(511)
- Soltani, A., Harries, K. A., & Shahrooz, B. M. (2013). Crack opening behavior of concrete reinforced with high strength reinforcing steel. International Journal of Concrete Structures and Materials, 7(4), 253-264. https://doi.org/10.1007/s40069-013-0054-z
- Sousa, C., Sousa, H., Neves, A. S., & Figueiras, J. (2012). Numerical evaluaiton of the long-term-behavior of precast continuous bridge decks. Journal of Bridge Engineering, 17(1), 89-96. https://doi.org/10.1061/(ASCE)BE.1943-5592.0000233
- Stewart, C. F. & Gunderson, B. J. (1969). Factors affecting the durability of concrete bridge decks. Interim Report No. 2, Research and Development Section of Bridge Department. Sacramento, CA: California Department of Transportation.
- Streeter, D. (2012). Internal curing concrete, New York experience. Presentation at the 91st Annual Meeting of the Transportation Research Board, Washington DC.
- Tabachnick, B. G., & Fidell, L. S. (2007). Using multivariate statistics (5th ed.). New York: Pearson.
- Transportation Research Board (TRB). (2006). Basic research and emerging technologies related to Concrete Committee. Control of cracking in concrete: State of the art. Transportation Research Circular E-C107.
- Vaysburd, A. M. (1996). Durability of lightweight concrete bridges in severe environments. Concrete International, 18(7), 33-38.
- Weiss, W. J., Yang, W., & Shah, S. P. (1999). Factors influencing durability and early-age cracking in high strength concrete structures. SP-189-22, high performance concrete: Research to practice (pp 387-409), Farmington Hills, MI.
- Wolfe, W. H. (2008). lightweight concrete bridge deck performance in severe climates. In 2008 Concrete Bridge Conference, Federal Highway Administration, National Concrete Bridge Council, Missouri Department of Transportation, American Concrete Institute.
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