Mobile QR Code QR CODE

Journal of the Korea Concrete Institute

ISO Journal TitleJ Korea Concr Inst.
  • SCOPUS
  • KCI Accredited Journal

Journal Search

  1. Home
  2. All Issues
  3. 2024-10 (Vol.36 No.5)
  4. 10.4334/JKCI.2024.36.5.475
Export citation EndNote
XML PDF INFO REF

References

1 
Alyami, M. H., Alrashidi, R. S., Mosavi, H., Almarshoud, M. A., and Riding, K. A. (2019) Potential Accelerated Test Methods for Physical Sulfate Attack on Concrete. Construction and Building Materials 229. 116920.DOI
2 
ASTM C 642 (2013) Standard Test Method for Density, Absorption, and Voids in Hardened Concrete. West Conshohocken, PA; ASTM International.URL
3 
Beak, C. W., Park, C. B., Choi, S. W., Jo, H. T., and Ryu, D. H. (2015) Mechanical Properties of High Strength Concrete with High Volume Mineral Admixture. Journal of the Korean Recycled Construction Resources Institute 2(3), 180-187. (In Korean)DOI
4 
Binda, L. A., and Baronio, G. (1987) Mechanisms of Masonry Due to Salt Crystallization. Durability of Building materials 4, 227-240.URL
5 
Haynes, H., O’Neill, R., Neff, M., and Mehta, P. K. (2008) Salt Weathering Distress on Concrete Exposed to Sodium Sulphate Environment. ACI Materials Journal 105(1), 35-43.URL
6 
Hime, W. G., and Mather, B. (1999) “Sulfate Attack,” or is It?. Cement and Concrete Research 29(5), 789-791.DOI
7 
Irassar, E. F., Di Maio, A., and Batic, O. R. (1995) Sulfate Attack on Concrete with Mineral Admixtures. Cement and Concrete Research 26(1), 113-123.DOI
8 
KATS (2017) 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
9 
KATS (2019) Standard Test Method for Making and Curing Concrete Specimens (KS F 2403). Seoul, Korea: Korea Agency for Technology and Standards (KATS), Korea Standard Association (KSA). (In Korean)URL
10 
KATS (2022) Standard Practice for Preparing Concrete Sample in the Laborator (KS F 2425). Seoul, Korea: Korea Agency for Technology and Standards (KATS), Korea Standard Association (KSA). (In Korean)URL
11 
Kim, K. Y., Kim, K. M., Beak, D. I., Kim, M. S., and Kim, J. S. (2005) A Study on the Sulfate Attack of Concrete Using in Crushed Aggregates. KCI 2005 Spring Conference. 6-5 May 2012. Muju. Korea; Korea Concrete Institute (KCI), 17(1), 217-220. (In Korean)URL
12 
Kim, S. S., Lee, J. B., Lee, C. M., Lee, J. H., and Eom, S. H. (2013) Study on the Sulfate Resistance of Concrete Using Mineral Admixture. KCI 2013 Spring Conference. 14-18 May 2013. Yeosu, Korea; Korea Concrete Institute (KCI), 25(1), 99-100. (In Korean)URL
13 
Lee, H. J., Kim, K. B., Kim, D. G., and Lee, J. H. (2011) Analysis of Effect of Sulfate Attack in NPP Concrete Using Microstructure Analysis Technique. Concrete Using Mineral Admixture. KCI 2011 Fall Conference. 9-11 November 2011. Pyeongchang. Korea; Korea Concrete Institute (KCI), 23(2), 209-210. (In Korean)URL
14 
Lee, S. A., and Ann, K. Y. (2018) Evaluation on Sulfate Resistance of the High-durablility Culvert using CAC and GGBS. Journal of the Korea Concrete Institute 30(5), 465-472. (In Korean)DOI
15 
Lim, C. I., Jung, S. K., Jung, Y. J., and Lee, S. T. (2021) Microstructures of Cement Matrix under Different Sulfate Solution Concentrations. KCI 2018 Fall Conference. 7-9 Nov. 2018. Pyeoungchang, Korea; Korea Concrete Institute (KCI), 33(2), 479-480. (In Korean)URL
16 
Malhotra, V. M., Carette, G. G., and Bremner, T. W. (1988) Current Status of CANM ETs Studies on The Durability of Concrete Containing Supplementary Cementing Materials in Marine Environment. American Concrete in Institute 109, 31-72.DOI
17 
Najjar, M. F., Nehdi, M. L., Soliman, A. M., and Azabi, A. M. (2017) Damage Mechanisms of Two-Stage Concrete Exposed to Chemical and Physical Culfate Attack. Construction and Building Materials 135, 141-152DOI
18 
Nehdi, M. L., Suleiman, A. R., and Soliman, A. M. (2014) Investigation of Concrete Exposed to Dual Sulfate Attack. Cement and concrete Research 64, 42-53.DOI
19 
Park, K. M., Cho, Y. K., and Shin, D. C. (2017) Effects of Magnesium and Sulfate Ions on the Sulfate Attack Resistance of Alkali-activated Materials. Journal of the Korea Concrete Institute 29(4), 415-424. (In Korean)DOI
20 
Park, Y. S., Suh, J. K., Lee, J. H., and Shin, Y. S. (1998) Strength Characteristics on High Strength Concrete against Sulfate Attack. Journal of the Korea Concrete Institute 10(5), 117-128. (In Korean)DOI
21 
Suleiman, A. R., and Nehdi, M. L. (2017) Exploring Effects of Supplementary Cementiti Ous Materials in Concrete Exposed to Physical Salt Attack. Magazine of Concrete Research 69(11), 576-585.URL
22 
Thaulow, N., and Sahu, S. (2004) Mechanism of Concrete Deterioration due to Salt Crystallization. Materials Characterization 53(2-4), 123-127.DOI