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Journal of the Korea Concrete Institute

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

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  3. 2019-07 (Vol.23 No.4)
  4. 10.11112/jksmi.2019.23.4.69
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1. 
Ali, N., Shadi, R. (2011), TiO2 nanoparticles effects on physical, thermal and mechanical properties of self compacting concrete with ground granulated blast furnace slag as binder, Journal of Energy and Buildings, 43, 995-1002.DOI
2. 
Beeldens, A. (2006), An environmental friendly solution for air purification and self-cleaning effect : the application of TiO2 as photocatalyst in concrete, Proceedings of Transport Research Arena Europe-TRA, Goӧoteborg, Sweden.Google Search
3. 
Jung, J. H., Kim, S. H., Lee, G. H. (2010), Photocatalyst cement concrete research trend and method of utilization, International Journal of Highway Engineering, Korea Road Association, 12(2), 25-34.Google Search
4. 
Kim, H. J. (2000), Research on development of cement materials for removing nitrogen oxides (NOx), Journal of Cement, Korea Cement Association, 153, 50-54.Google Search
5. 
Kim, Y. K., Hong, S. J., Lee, K. B., Lee, S. W. (2014), Evaluation of NOx Removal Efficiency of Photocatalytic Concrete for Road Structure, International Journal of Highway Engineering, Korea Road Association, 16(5), 49-58.DOI
6. 
Lee, S. T., Hoontonm, R. D., Jung, H. S., Park, D. H., Choi, C. S. (2008), Effect of limestone filler on the deterioration of mortars and pastes exposed to sulfate solutions at ambient temperature, Cement and Concrete Research, 38(1), 68-76.DOI
7. 
Monica, J. H., Andrew, T. H. (2013), Nanotechnology innovations for the construction industry, Progress in Materials Science, 58, 1056-1102.DOI
8. 
Nazari, A., Riahi, S. (2011), The Effects of TiO2 Nanoparticles on Flexural Dam-age of Self-compacting Concrete, International Journal of Damage Mechanics, 20(7), 1049-1072.DOI