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Journal of the Korea Concrete Institute

ISO Journal TitleJ Korea Concr Inst.
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  • KCI Accredited Journal

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  3. 2024-06 (Vol.36 No.3)
  4. 10.4334/JKCI.2024.36.3.197
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References

1 
AIJ (2022) Japanese Architectural Standard Specification for Reinforced Concrete Work (JASS 5). Tokyo, Japan: Architectural Institute of Japan (AIJ), 217-220.URL
2 
Bouzoubaâ, N., Bilodeau, A., Tamtsia, B., and Foo, S. (2010) Carbonation of Fly Ash Concrete: Laboratory and Field Data. Canadian Journal of Civil Engineering 37(12), 1535- 1549.DOI
3 
fib (2012a) Model Code 2010 Vol. 1 (fib Bulletins 65). Lausanne, Switzerland: International Federation for Structural Concrete (fib).URL
4 
fib (2012b) Model Code 2010 Vol. 2 (fib Bulletins 66). Lausanne, Switzerland: International Federation for Structural Concrete (fib).URL
5 
Han, M. C., and Woo, D. H. (2013) Effect of Waste Cooking Oil on Durability of High Volume Mineral Admixture Concrete. Journal of the Korean Recycled Construction Resources Institute 1(3), 173-180. (In Korean)DOI
6 
Helland, S. (2013) Design for Service Life: Implementation of fib Model Code 2010 Rules in the Operational Code ISO 16204. Structural Concrete 14(1), 10-18.DOI
7 
Hwang, S. H., Yoon, Y. S., and Kwon, S. J. (2019) Carbonation Behavior of GGBFS Concrete considering Loading Conditions and Cold Joint. Journal of the Korea Concrete Institute 31(4), 365-373.URL
8 
ISO/TC 71/SC 3 (2012) Durability-Service Life Design of Concrete Structures (ISO 16204:2012). Geneva, Switzerland: International Organization for Standardization (ISO). 1-31.URL
9 
Jeon, B. H., Kim, H. S., and Lee, S. H. (2018) A Study on the Evaluation of the Carbonation Resistance and Properties Ternary Blended Concrete according to Replacement Ratio of Blast Furnace Slag and Fly Ash. Journal of the Korea Concrete Institute 30(1), 23-30. (In Korean)DOI
10 
KATS (2010) Standard Test Method for Accelerated Carbonation of Concrete (KS F 2584). Seoul, Korea: Korea Agency for Technology and Standards (KATS), Korea Standard Association (KSA). (In Korean)URL
11 
KATS (2016) Standard Test Method for Unit Weight and Air Content (Gravimetric) of Fresh Concrete (KS F 2409). Seoul, Korea: Korea Agency for Technology and Standards (KATS), Korea Standard Association (KSA). (In Korean)URL
12 
KATS (2017a) Standard Test Method for Concrete Slump (KS F 2402). Seoul, Korea: Korea Agency for Technology and Standards (KATS), Korea Standard Association (KSA). (In Korean)URL
13 
KATS (2017b) Standard Test Method for Compressive Strength of Concrete (KS F 2405). Seoul, Korea: Korea Agency for Technology and Standards (KATS), Korea Standard Association (KSA). (In Korean)URL
14 
KCI (2022) Design Standard of Reinforced Concrete (KDS 14 20 00). Sejong, Korea: Ministry of Land, Infrastructure and Transport (MOLIT), Korea Concrete Institute (KCI). 18 (In Korean)URL
15 
Kwon, S. J. (2017) Current Trends of Durability Design and Government Support in South Korea: Chloride Attack. Sustainability 9(3), 417.DOI
16 
Kwon, S. J., Park, S. S., Nam, S. H., and Lho, B. C. (2008) A Service Life Prediction for Unsound Concrete under Carbonation through Probability of Durable Failure. Journal of the Korea Institute for Structural Maintenance and Inspection 12(2), 49-58. (In Korean)URL
17 
Lee, J., Lee, B. C., Cho, Y. K., Park, K. M., and Jung, S. H. (2017) Carbonation Properties of Recycled Aggregate Concrete by Specified Concrete Strength. Journal of the Korean Recycled Construction Resources Institute 5(1), 85-93. (In Korean)DOI
18 
Lee, T. H., Kim, T. K., Choi, S. J., and Kim, J. H. J. (2020) Experimental Evaluation of Recycled Aggregate Concrete for Freeze-thaw and Carbonation Resistance considering Various Curing Conditions from Climate Change. Journal of the Korea Concrete Institute 32(1), 3-10. (In Korean)DOI
19 
Leemann, A., Nygaard, P., Kaufmann, J., and Loser, R. (2015) Relation between Carbonation Resistance, Mix Design and Exposure of Mortar and Concrete. Cement and Concrete Composites 62, 33-43.DOI
20 
Rathnarajan, S., Dhanya, B. S., Pillai, R. G., Gettu, R., and Santhanam, M. (2022) Carbonation Model for Concretes with Fly Ash, Slag, and Limestone Calcined Clay-using Accelerated and Five-year Natural Exposure Data. Cement and Concrete Composites 126, 104329.DOI
21 
Sisomphon, K., and Franke, L. (2007) Carbonation Rates of Concretes Containing High Volume of Pozzolanic Materials. Cement and Concrete Research 37(12), 1647-1653.DOI
22 
Tomosawa, F. (2009) Japan’s Experiences and Standards on the Durability Problems of Reinforced Concrete Structures. International Journal of Structural Engineering 1(1), 1-12.DOI
23 
Wang, X. Y. (2020) Design of Low-cost and Low-CO2 Air- entrained Fly Ash-blended Concrete considering Carbonation and Frost Durability. Journal of Cleaner Production 272, 122675.DOI
24 
Yang, K. H., and Kim, S. C. (2013) A Case Study on CO2 Uptake of Concrete Owing to Carbonation. Journal of the Korean Recycled Construction Resources Institute 1(1), 42-48. (In Korean)DOI