ACI Committee 209 (2008). Guide for modeling and calculating shrinkage and creep in
hardened concrete, ACI 209.2R-08, American Concrete Institute, Michigan.
Bartlett, F. M. and MacGregor, J. G. (1994). "Effect of moisture condition on concrete
core strength." ACI Materials Journal, Americal Concrete Institute, Vol. 91, No. 3,
pp. 227-236.
British Standard (1983). Testing concrete, BS 1881, British Standards Institution,
London.
British Standard (2000). Testing hardened concrete, BS EN 12390, British Standards
Institution, London.
Burg, R. G. (1996). The influence of casting and curing temperature on the properties
of fresh and hardened concrete, Research and Development Bulletin RD113, Portland
Cement Association, Chicago.
Cho, H. D. and Jaung, J. D. (2008). "A study on the strength properties of high-strength
concrete under various curing conditions." Proc. of 2008 Korea Concrete Institute
Autumn Conference, KCI, Goyang, Korea, pp. 965-968 (in Korean).
Gonnerman, H.F. (1930). "Study of methods of curing concrete." Journal of the American
Concrete Institute-Proceedins, ACI, Vol. 26, pp. 359-396.
Han, C. G. and Han, M. C. (2004). "Determination of removal time of the side form
in high strength concrete." Journal of the Korea Concrete Institute, KCI, Vol. 16,
No. 3, pp. 327-334 (in Korean).
Han, C. G., Hwang, Y. S. and Sin, B. H. (2002). "Determination of removal time of
the forms according to the strength development of concrete at early age." Journal
of the Architectural Institute of Korea Structure & Construction, AIOK, Vol. 18, No.
9, pp. 157-162 (in Korean).
Hansen, P. F. and Pedersen, E. J. (1977). "Maturity Computer for Controlled Curing
and Hardening of Concrete", Journal of the Nordic Concrete Federation, No.1, pp.21-25
(in Danish).
Klieger, P. (1958). Effect of Mixing and Curing Temperature on Concrete Strength,
Research Department Bulletin RX103, Portland Cement Association, Chicago.
Korean Standard (2010). Standard test method for compressive strength of concrete,
KS F 2405, Korean Standards Association (in Korean).
Ministry of Land, Infrastructure and Transport (MOLIT) (2015). Building construction
standard specification, Architectural Institute of Korea (in Korean).
Ministry of Land, Infrastructure and Transport (MOLIT) (2016). Standard specification
of concrete, Korea Concrete Institute (in Korean).
Moon, Y. H. (1999). Prediction of concrete strength with different curing temperature
and time, Ph.D. Dissertation, Korea Advanced Institute of Science and Technology (in
Korean).
Park, S. W., Cho, H. D. and Jaung, J. D. (2009a). "A study on the strength properties
of high-strength concrete under various curing conditions (2)." Proc. of 2009 Korea
Concrete Institute Spring Conference, KCI, Busan, Korea, pp. 273-274 (in Korean).
Park, S. W., Yu, M. H., Cho, H. D. and Jaung, J. D. (2009b). "A study on the strength
properties of high-strength concrete under various curing conditions (3)." Proc. of
2009 Korea Concrete Institute Autumn Conference, KCI, Yongin, Korea, pp. 465-466 (in
Korean).
Popovics, S. (1986). "Effect of curing method and final moisture condition on compressive
strength of concrete." ACI Journal, ACI, Vol. 83, No. 4, pp. 650-657.
Price, W. H. (1951). "Factors influencing concrete strength." Journal of American
Concrete Institute, No. 47-31, pp. 417-432.
Rastrup, E. (1954). "Heat of hydration in concrete", Magazine of Concrete Research,
Vol. 6, No. 17, pp.79-92.
Yoon, G. W., Lee, Y. E. and Baek, D. H. (2002). "Determination of removal time of
form." Proc. of 2002 Korea Concrete Institute Autumn Conference, KCI, Seoul, Korea,
pp. 101-116 (in Korean).