Mobile QR Code QR CODE

Journal of the Korea Concrete Institute

J Korea Inst. Struct. Maint. Insp.
  • Indexed by
  • Korea Citation Index (KCI)

References

1 
(2011), A Study on the Requisite Elements of LCCO2 Evaluation System at Planning Stage of Building, Korean Journal of Construction Engineering and Management, 12(3), 31-41.
2 
(1993), Electrical Indication of Concrete’s Ability to Resist Chloride Ion Penetration
3 
(1997), Corrosion of Steel in Concrete: Understanding, Investigation and Repair, 1-15.
4 
(2009), Decision of Optimized Mix Design for lightweight Foamed Concrete Using Bottom Ash by Statistical Procedure, Journal of the Korea Concrete Institute, 21(1), 3-11.
5 
(2015), Standard test method for compressive strength of concrete, 1-3.
6 
(2012), Testing method for resistance of concrete to chloride ion penetration by electrical conductance, 1-8.
7 
(2014), Characteristics for Reinforcement Corrosion and Chloride Ion Diffusion of High Volume Fly Ash Concrete, Journal of the Korean Recycled Construction Resources Institute, 2(1), 34-39.
8 
(2012), Analysis Technique for Chloride Behavior Using Apparent Diffusion Coefficient of Chloride Ion from Neural Network Algorithm, Journal of the Korea Concrete Institute, 24(4), 481-490.
9 
(2013), Life cycle CO2 Assessment Method for Concrete using CO2 Balance and Suggestion to Decrease LCCO2 of Concrete in South-Korean Apartment, Energy and Buildings, 58(1), 93-102.
10 
(2011), Effect of Fly Ash on the Durability Properties of High Strength Concrete, The Proceedings of the Twelfth East Asia-Pacific Conference on Structural Engineering and Construction, 14, 1149-1156.
11 
(1999), Chloride Migration Coefficient from Non-Steady-State Migration Experiments, 1-11.
12 
(2015), Chloride Penetration of Concrete Mixed with High Volume Fly Ash and Blast Furnace Slag, Journal of the Korea Institute for Structural Maintenance and Inspection, 19(1), 90-99.
13 
(2017), Corrosion-Resisting Performance Evaluation of Concrete Mixed with Fly-Ash, Journal of the Korea Institute for Structural Maintenance and Inspection, 21(1), 117-125.
14 
(1994), Durability Design of Concrete Structures, Report of RILEM Technical Committee 130-CSL, 28-52.
15 
(2006), Service Life Prediction of Concrete Structures under Marine Environment Considering Coupled Deterioration, Journal of Restoration of Building and Monument, 12(4), 265-284.
16 
(2005), A Study on Analytical Technique of Chloride Diffusion Considering Characteristics of Mixture Design for High Performance Concrete using Mineral Admixture, Journal of the Korean Society of Civil Engineers, 25(1A), 213-223.
17 
(1996a), Chloride Transport in Concrete - Measurement and Prediction, 26-85.
18 
(1996b), Electrically Accelerated Methods for Determining Chloride Diffusivity in Concrete-Current Development, Magazine of Concrete Research, 48(176), 173-179.
19 
(2013), Analysis Technique for Flexural Behavior in RC Beam Considering Autogenous Shrinkage Effect, Construction and Building Materials, 47, 560-568.
20 
(2012), Analysis Technique for Autogenous Shrinkage in High Performance Concrete with Mineral and Chemical Admixtures, Construction and Building Materials, 34, 1-10.