(1) Gopalan, M. K., and M. N. Haque (1987). "Effect of curing regime on the properties of fly-ash concrete." ACI Materials Journal, 84 (1), 14-19.

(2) Neville, A. M. (1996). Properties of Concrete. Wiley & Sons, 844 pp.

(3) Carino, N. J., K. A. Woodward, E.V. Leyendecker, and S. G. Fattal (1983). "A review of the Skyline Plaza collapse." Concrete International, 7, 35-42.

(4) Lew, H. S. (1980). "America’s worst construction accident: part one." Civil Engineering ASCE, 2, 1-6.

(5) Kapila, D., J. Falkowsky, and J. L. Plawsky (1997). "Thermal effects during curing of concrete pavements." ACI Materials Journal, 94 (2), 119-128.

(6) Wojcik, G. S., and D. R. Fitzjarrald (2001). "Energy balances of curing concrete bridge decks." Journal of Applied Meteorology, 40 (11), 2003-2025.

(7) ASTM (1999). "ASTM C 1074-98 Standard specifications for estimating concrete strength by the maturity method." Annual Book of ASTM Standards, Vol. 04.02.

(8) Freiesleben Hansen, P. and J. Pederson (1977). "Maturity computer for controlled curing and hardening of concrete." Nordisk Betong, 1, 19-34.

(9) Wojcik, G. S., D. R. Fitzjarrald, and J. L. Plawsky (2003). "Modeling the interaction between the atmosphere and curing concrete bridge decks with the SLABS model." Meteorological Applications, in press.

(10) NYSDOT (1999). "Specification revisions-Class HP concrete for substructures and structural slabs." NYSDOT Rep. EI 99-002, 22 pp. [Available from New York State Department of Transportation Structures Division, 1220 Washington Ave., Building 5, 6th floor, W. Averell Harriman State Office Building Campus, Albany, NY, 12232-0600.]

(11) Wojcik, G. S., J. L. Plawsky, and D. R. Fitzjarrald (2001). "Development of a bimolecular expression to describe the heat generation of Class HP concrete." Cement and Concrete Research, 31 (12), 1847-1858.

(12) Pommersheim, J. M., and J. R. Clifton (1991). "Models of transport processes in concrete. National Institute of Standards and Technology Internal Report NISTIR 4405." 92 pp.

(13) Powers, T. C. and T. L. Brownyard (1946-1947). "Studies of physical properties of hardened Portland cement paste (nine parts)." Journal of the American Concrete Institute, 43.

(14) Stull, R. B. (1988). An Introduction to Boundary Layer Meteorology. Kluwer Academic Press, 666 pp.

(15) Kondo, J., and S. Ishida (1997). "Sensible heat flux from the Earth’s surface under natural convection conditions." Journal of the Atmospheric Sciences, 54, 498-509.

(16) Freedman, J. M., D. R. Fitzjarrald, K. E. Moore, and R. K. Sakai (2001). "Boundary layer clouds and vegetation-atmosphere feedbacks." Journal of Climate, 14, 180-197.

(17) Prata, A. J. (1996). "A new long-wave formula for estimating downward clear-sky radiation at the surface." Quarterly Journal of the Royal Meteorological Society, 122, 1127-1151.

(18) Brutsaert, W. (1975). "On a derivable formula for longwave radiation from clear skies." Water Resources Research, 11, 742-744.

(19) Pruppacher, H. R., and J. D. Klett (1997). Microphysics of Clouds and Precipitation. Kluwer Academic Publishers, 954 pp.

(20) Incropera, F. P., and D. P. DeWitt (1996). Introduction to Heat Transfer, John Wiley & Sons, 801pp.

(21) Hooton, R. D. (1993). "Influence of silica replacement of cement on physical properties and resistance to sulfate attack, freezing and thawing, and alkali-silica reactivity." ACI Materials Journal, 90 (2) 143-151.

(23) Wojcik, G. S. (2003). "The effects of atmospheric and construction conditions on curing concrete equivalent ages." submitted to ACI Materials Journal.