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 
ACI Committee 304 (1996), Heavyweight concrete: Measuring, mixing, transporting, and placing (ACI 304.3R-96), American Concrete Institute (ACI), USA, 1-8.URL
2 
Broomfield, J. P. (1997), Corrosion of Steel in Concrete: Understanding, Investigation and Repair, E&FN, London 1-15.URL
3 
Bruck, P. M., Esselman, T. C., Elaidi, B. M., Wall, J. J., and Wong, E. L. (2019), Structural assessment of radiation damage in light water power reactor concrete biological shield walls, Nuclear Engineering and Design, 350, 9-20.DOI
4 
CEB–FIP (2006), Model code for service life design, The International Federation for Structural Concrete, Switzerland, 1-116.URL
5 
Dhir, R. K., Jones, M. R., and Elghaly, A. E. (1993), PFA Concrete: exposure temperature effects on chloride diffusion, Cement and Concrete Research, 23(5), 1105-1114.DOI
6 
Field, K. G., Remec, I., and Le Pape, Y. (2015), Radiation effects in concrete for nuclear power plants–Part I: Quantification of radiation exposure and radiation effects, Nuclear Engineering and Design, 282, 126-143.DOI
7 
Goto, S., and Roy, D. M. (1981), Diffusion of ions through hardened cement pastes, Cement and Concrete Research, 11(5–6), 751-757.DOI
8 
Jang, S. Y., Karthick, S., and Kwon, S. J. (2017), Investigation on Durability Performance in Early Aged High-Performance Concrete Containing GGBFS and FA, Advances in Materials Science and Engineering, 2017, 3214696.DOI
9 
Julio-Betancourt, G. A., and Hooton, R. D. (2004), Study of the Joule effect on rapid chloride permeability values and evaluation of related electrical properties of concretes, Cement and Concrete Research, 34(6), 1007-1015.DOI
10 
Jung, S. H., Rye, H. S., Karthick, S., and Kwon, S. J. (2018), Time and crack effect on chloride diffusion for concrete with fly ash, International Journal of Concrete Structures and Materials, 12(1), 1-10.DOI
11 
KDI. (2010), Become one of the top 3 nuclear export powerhouses by 2030, https://eiec.kdi.re.kr/publish/naraView.do?cidx=6998. (in Korean).URL
12 
Lee, K. M., Yoon, Y. S., Yang, K. H., Yoo, B. Y., and Kwon, S. J. (2022), Corrosion Behavior in RC Member with Different Cover Depth under Cyclic Chloride Ingress Conditions for 2 Years, Applied Sciences, 12(24), 13002.DOI
13 
Matsumura, T., Shirai, K., and Saegusa, T. (2008). Verification method for durability of reinforced concrete structures subjected to salt attack under high temperature conditions, Nuclear Engineering and Design, 238(5), 1181-1188.DOI
14 
Page, C. L., Short, N. R., and Tarras, A. E. (1981), Diffusion of chloride ions in hardened cement pastes, Cement and Concrete Research, 11(3), 395-406.DOI
15 
Pomaro, B. (2016), A review on radiation damage in concrete for nuclear facilities: from experiments to modeling, Modelling and Simulation in Engineering, 2016, 4165746.DOI
16 
Popova, A. (2007), Temperature effect on mild steel corrosion in acid media in presence of azoles, Corrosion Science, 49(5), 2144-2158.DOI
17 
So, H. S., Choi, S. H., Seo, J. S., So, S. Y., and Seo, K. S. (2014), Influence of temperature on chloride ion diffusion of concrete, Journal of Korea Concrete Institute, 26(1), 71-78 (in Korean).DOI
18 
Thomas, M. D. A., and Bentz, E. C. (2002), Computer program for predicting the service life and life-cycle costs of reinforced concrete exposed to chlorides, Life365 Manual, Silica Fume Association, Lovettsville, USA.URL
19 
Weatherspark. (2022), https://ko.weatherspark.com.URL
20 
Yang, K. H., and Kwon, S. J. (2023), Evaluation of Strength and Chloride Diffusion in Concrete with FA Considering Temperature Effect, Journal of the Korean Recycled Construction Resources Institute, 11(1), 62-69 (in Korean).URL
21 
Yang, K. H., Kwon, S. J., Hwang, J. W., and Yoon, Y. S. (2023), Temperature effect on strength and chloride migration in nuclear power plant concrete, Construction and Building Materials, 405, 133345.DOI
22 
Yoon, Y. S., Lim, H. S., and Kwon, S. J. (2019), Evaluation of Apparent Chloride Diffusion Coefficient of Fly Ash Concrete by Marine Environment Exposure Tests, Journal of the Korea Institute for Structural Maintenance and Inspection, 23(3), 1-8 (in Korean).URL
23 
Yuan, F. L., and Li, C. Q. (2011), Corrosion propagation of prestressing steel strands in concrete subject to chloride attack, Construction and Building Materials, 25(10), 3878-3885.DOI
24 
Yuan, Q., Shi, C., Schutter, G. D., and Audenaert. K. (2008), Effect of temperature on transport of chloride ions in concrete, Concrete Repair, Rehabilitation and Retrofitting II, 345-351.URL