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Nguồn tham khảo
| Tài liệu tham khảo | Loại | Chi tiết |
|---|---|---|
| [1] M.Y. Kim, E.I. Yang, S.T. Yi, Application of the colorimetric method to chloride diffusion evaluation in concrete structures, Constr. Build. Mater. 41 (2013) 239–245 | Khác | |
| [2] V. Baroghel-Bouny, P. Belin, M. Maultzsch, D. Henry, AgNO 3 spray tests: advantages, weaknesses, and various applications to quantify chloride ingress into concrete. Part 2:Non-steady-state migration tests and chloride diffusion coefficients, Mater. Struct. 40 (2007) 783–799 | Khác | |
| [3] D.F. Aponte, M. Barra, E. Vàzquez, Durability and cementing efficiency of fly ash in concrete, Constr. Build. Mater. 30 (2012) 537–546 | Khác | |
| [4] P. Chindaprasirt, C. Chotithanorm, H.T. Cao, V. Sirivivatnanon, Influences of fly ash fineness on the chloride penetration of concrete, Constr. Build. Mater. 21 (2007) 356–361 | Khác | |
| [5] T. Cheewaket, C. Jaturapitakkul, W. Chalee, Initial corrosion presented by chloride threshold penetration of concrete up to 10 year-results under marine site, Constr. Build.Mater. 37 (2012) 693–698 | Khác | |
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| [10] V. Baroghel-Bouny, P. Belin, M. Maultzsch, D. Henry, AgNO 3 spray tests: advantages, weaknesses, and various applications to quantify chloride ingress into concrete. Part 1:Non-steady-state diffusion tests and exposure to natural conditions, Mater. Struct. 40 (2007) 759–781 | Khác | |
| [11] V.G. Papadakis, Effect of supplementary cementing materials on concrete resistance against carbonation and chloride ingress, Cem. Concr. Res. 30 (2000) 291–299 | Khác | |
| [12] F. Lollini, E. Redaelli, L. Bertolini, A study on the applicability of the efficiency factor of supplementary cementitious materials to durability properties, Constr. Build. Mater.120 (2016) 284–292 | Khác | |
| [13] E. Sakai, S. Miyahara, S. Ohsawa, S.H. Lee, M. Daimon, Hydration of fly ash cement, Cem. Concr. Res. 35 (2005) 1135–1140 | Khác | |
| [14] T. Yamamoto, T. Kanazu, Experimental explanation of compacting effect on hydration phases and strength development mechanism derived from pozolanic reaction of fly ash (in Japanese), J. Japan Soc. Civ. Eng. 63 (2007) 52–65 | Khác | |
| [15] P.T. Bui, Y. Ogawa, K. Nakarai, K. Kawai, R. Sato, Internal curing of class-F fly-ash concrete using high-volume roof-tile waste aggregate, Mater. Struct. 50 (2017) 203 | Khác |
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