Mobile QR Code QR CODE
Export citation EndNote
1 
Aligizaki, K. K. (2005) Pore Structure of Cement-Based Materials: Testing, Interpretation and Requirements. New York: CRC Press. 71-73.Google Search
2 
Ann, K. Y. and Song, H. W. (2007) Chloride Threshold Level for Corrosion of Steel in Concrete. Corrosion Science 49(11) 4113-4133.DOI
3 
ASTM C 1202 (1997) Standard Test method for electrical indication of concrete’s ability to resist chloride ion penetration, Annual Book of ASTM Standards, American Society for testing and Materials.Google Search
4 
BS 8110 (1985) Part 1: Structural Use of Concrete–Code of Practice for Design and Construction, British Standards Institute.Google Search
5 
Buenfeld, N. R. and Newman, J. B. (1987) Examination of three methods for studying ion diffusion in cement pastes, mortars and concrete. Materials and Structures 20, 3-10.DOI
6 
El-Dieb, A. S. and Hooton, R. D. (1994) Evaluation of the Katz-Thompson Model for Estimating the Water Permeability of Cement-Based Materials from Mercury Intrusion Porosimetry Data. Cement and Concrete Research 24(3), 443-455.DOI
7 
Farahani, A. Taghaddos, H., and Shekarchi, M. (2015) Prediction of long-term chloride diffusion in silica fume concrete in a marine environment. Cement and Concrete Composites 59, 10-17.DOI
8 
Khan, M. U., Shamsad A., and Husain J. G. (2017) Chloride-Induced Corrosion of Steel in Concrete: An Overview on Chloride Diffusion and Prediction of Corrosion Initiation Time.Google Search
9 
Mindess, S., Young, J. F., and Darwin, D. (2003) Concrete, 2nd edition. USA: Pearson Education, Inc.Google Search
10 
Neville, A. M. (1995) Properties of Concrete, 4th edition. London: Longman Group Ltd.Google Search
11 
NT BUILD 443 (1997) Concrete, hardened: Accelerated chloride penetration, Nordest, Espoo, Finland.Google Search
12 
Oner, A. and Akyuz, S. (2007) An Experimental Study on Optimum Usage of Ggbs for the Compressive Strength of Concrete. Cement and Concrete Composites 29(6), 505-514.DOI
13 
Pack, S. W., Jung, M. S., Song, H. W., Kim, S. H., and Ann, K. Y. (2010) Prediction of time dependent chloride transport in concrete structures exposed to a marine environment. Cement and Concrete Research 40(2), 302-312.DOI
14 
Page, C. L. (1975) Mechanism of Corrosion Protection in Reinforced Concrete Marine Structures. Nature 258(11),  514-515.DOI
15 
Petcherdchoo, A. (2013) Time Dependent Models of Apparent Diffusion Coefficient and Surface Chloride for Chloride Transport in Fly Ahs Concrete. Construction and Building Materials 38, 497-507.DOI
16 
Poulsen E. and Mejlbro L. (2010) Diffusion of chloride in concrete: theory and application. New York: CRC Press.Google Search
17 
Song, H. W., Lee, C. H., Jung, M. S., and Ann, K. Y. (2008) Development of Chloride Binding Capacity in Cement Pastes and Influence of the pH of Hydration Products. Canadian Journal of Civil Engineering 35(12), 1427-1434.DOI
18 
Song, H. W. Lee, C. H. Lee, K. C. Kim, J. H., and Ann, K. Y. (2008) Chloride Penetration Resistance of Ternary Blended Concrete and Discussion for Durability. Journal of the Korea Concrete Institute 20(4), 439-449. (In Korean)DOI
19 
Thomas, M. D. A. and Phil, B. B. (1999) Modelling Chloride Diffusion in Concrete: Effect of Fly Ash and Slag. Cement and Concrete Research 29(4), 487-495.DOI