Chloride attacks concrete structures becoming a primary factor that deteriorates the durability of concrete structures. For this reason, research has been conducted on chloride ion penetration and diffusion. This research produced an accurate durability life prediction through reliability assessments and proposes a prediction method for the chloride ion diffusion coefficient of a concrete applied assessment program for reliability. As a result, test materials were fabricated using different admixtures and chloride ion diffusion coefficient was calculated by applying an RCPT test at each equivalent age. Based on these results, reliability prediction formulas were indicated through the reliability analysis for a durability life design using a Monte Carlo method. In addition, propriety was verified through comparisons and analysis using the proposed formula with the investigated data for chloride ion diffusion.

P. Kumar Metha (2006) Concrete-Microstructure, Properties and Materials. MaGraw-Hill, New York

Vagelis G. Papadakis (2000) Effect of supplementary cementing materials on concrete resistance against carbonation and chloride ingress. Cem Concr Res 30: 291-299

Erik P. Nielsen, Mette R. Geiker (2003) Chloride diffusion in partially saturated cementitious material. Cem Concr Res 33: 133-138

Sang-Hun Han (2007) Influence of diffusion coefficient on chloride ion penetration of concrete structure. Constr Buil 21:370-378

Ha-won Song, Jong-Chul Jang, Velu Saraswathy, Keun-Joo Byun (2007) An estimation of the diffusivity of silica fume concrete. Bldg Envir 42:1358-1367

Dongseok Kim, Hanseung Lee, Seongmin Lee, Xiaoyong Wang.(2007) A study on the evaluation of probabilistic durability life for RC Structures deteriorated by chloride ion, Advances in fracture and damage mechanics VI, FDM 2007, Portugal, edited by J.Alfaiate, M.H.Aliabadi, M.Guagliano, L.Susmei, pp.417-421

Trevor J. Kirkpatrick, Richard E. Weyers , Christine M. Anderson-Cook, Michael M. Sprinkel (2002) Probabilistic model for the chloride-induced corrosion service life of bridge decks, Cem Concr Res 32 :1943–1960

Mchael P. Enright and Dam M. Frangopol (1998) Probabilistic analysis of resistance degradation of reinforced concrete bridge beams under corrosion, Eng Struct 20: 960-971

Y. Liu, R.E. Weyers (1998) Modeling the time-to-corrosion cracking in chloride contaminated reinforced concrete structures, ACI Mater. J.95: 675– 681.

M.H. Kalos, P.A. Whitlock (1986) Monte Carlo Methods: Volume I. Basics, Wiley, New York,