Journal of Engineering and Applied Sciences
Year:
2017
Volume:
12
Issue:
15
Page No.
4000 - 4004
Evaluation of Resistance to Freezing and Thawing and Chloride Attack of
High-Performance Concrete Applicable to Nuclear Power Plants
Authors :
E.A. Seo,
D.G. Kim,
H.J. Lee
and
N.W. Yang
References
ACI., 2006. Code requirements for nuclear safety-related concrete structures. American Concrete Institute, Michigan, USA.
Elfmarkova, V., P. Spiesz and H.J.H. Brouwers, 2015. Determination of the chloride diffusion coefficient in blended cement mortars. Cem. Concr. Res., 78: 190-199.
Direct Link | Kim, D.Y., H.K. Cho and H.S. Lee, 2014. Effects of the reaction degree of ground granulated blast furnace slag on the properties of cement paste. J. Korea Concr. Inst., 26: 723-730.
CrossRef | Direct Link | Ma, H., H. Yu and W. Sun, 2013. Freezing-thawing durability and its improvement of high strength shrinkage compensation concrete with high volume mineral admixtures. Constr. Build. Mater., 39: 124-128.
CrossRef | Park, K.P., S.S. Kim, S.T. Lee, J.P. Kim and H.S. Jung, 2011. Properties on the freeze-thaw of concrete subjected to seawater attack. J. Korea Concr. Inst., 23: 23-30.
CrossRef | Direct Link | Yang, E.I., M.Y. Kim and S.H. Min, 2004. Chloride diffusion in hardened concrete with concrete properties and testing method. J. Korea Concr. Inst., 16: 261-268.
Direct Link |