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Journal of the Korea Concrete Institute

J Korea Inst. Struct. Maint. Insp.
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  • Korea Citation Index (KCI)
1 
(2001), Joints in Concrete Construction
2 
(1997), Corrosion of Steel in Concrete: Understanding, Investigation and Repair
3 
(2015), Analysis Technique on Water Permeability in Concrete with Cold Joint considering Micro Pore Structure and Mineral Admixture, Advances in Materials Science and Engineering, 1-10.
4 
(2000), Chloride diffusivity of concrete cracked in flexure, Cement and Concrete Research, 442-452.
5 
JSCE (2000), Concrete Cold Joint Problems and Countermeasures
6 
(1991), Permeability of stressed concrete., Build. Res. Inform., 19(6), 360-366.
7 
(2009), Effect of Compressive Loading on the Chloride Penetration of Concrete Mixed with Granulated Blast Furnace Slag., Journal of the Korea Institute of Building Construction, 9(6), 71-78.
8 
(2009), An Experimental Study on Relation between Chloride Diffusivity and Micro structural Characteristics for GGBS Concrete., Journal of the Korea Concrete Institute, 21(5), 639-647.
9 
(2001), Effect of Ground Granulated Blast Furnace Slag on Corrosion protection., Pro. of the Japan Concrete Institute, 23(2), 553-558.
10 
(2009), Service Life Prediction of Concrete Wharves with Early Aged Crack: Probabilistic Approach for Chloride Diffusion., Struct. Saf., 31(1), 75-83.
11 
(2007), A Study on Estimation for Chloride Diffusivity in Cracked Concrete in Harbor Structures through Field Survey., Journal of The Korean Society of Civil Engineers, 27(5A), 745-752.
12 
(2013), Analysis Technique for Chloride Penetration in High Performance Concrete Behavior Considering Time-Dependent Accelerated Chloride Diffusivity., Journal of the Korea Concrete Institute, 25(2), 145-153.
13 
(2014), Effect of Fineness Levels of GGBFS on the Strength and Durability of concrete., Journal of the Korean Society of Civil Engineers, 34(4), 1095-1104.
14 
(2000), An Experiment Study on the Properties of Resistance to Diffusion of Chloride Ions of Fly Ash and Blast Furnace Slag Concrete., Cement Concr. Res., 30(6), 989-992.
15 
(2007), A Study of the Strength and Durability Properties on Recycled Fine Aggregate Mortar and Blain of Blast Furnace Slag., Journal of the architectural institute of Korea, 23(10), 91-98.
16 
(1987), Chloride Diffusion in Steel Fiber Reinforced Marine Concrete., Cement Concr. Res., 17(2), 385-396.
17 
(2013), Concrete: Microstructure, Properties, and Materials
18 
(2001), Accelerated Test Methods for Diffusion Coefficient of Chloride Ions into Concrete Using Potential Difference., Journal of the Korea Concrete Institute, 21(3-A), 403-412.
19 
(2016), Chloride Diffusion Coefficients in Cold Joint Concrete Considering Loading Conditions and Slag.
20 
(2003), Effect of Components Fineness on Strength of Blast Furnace Slag Cement., Cement Concr. Res., 33(4), 463-469.
21 
(2012), Analysis Technique for Chloride Penetration in Cracked Concrete Using Equivalent Diffusion and Permeation., Constr. Build. Mater., 29(2), 183-192.
22 
RILEM (1994), Durability Design of Concrete Structures, Report of RILEM Technical Committee 130-CSL
23 
(2006), Service Life Prediction of Concrete Structures Under Marine Environment Considering Coupled Deterioration., Journal of Restoration of Build Monuments, 12(4), 265-284.
24 
(1992), Rapid Determination of the Chloride Diffusivity in Concrete by Applying an Electrical Field., ACI Mater. J., 89(1), 49-53.
25 
(2002), Computer Program for Predicting the Service Life and Life-Cycle Costs of Reinforced Concrete Exposed to Chlorides, Life365 Manual