New technology of blastfurnace slag activation with recycling water from ready-mixed concrete production
,
 
,
 
,
 
 
 
More details
Hide details
1
Department of Civil & Environmental Engineering, Hanyang University, Seoul, South Korea
 
2
Department of Civil Engineering, Daejin University, Kyunggido, South Korea
 
 
Publication date: 2013-01-01
 
 
Cement Wapno Beton 18(1) 33-38 (2013)
 
ACKNOWLEDGEMENTS
This research was supported by the Nuclear Power Technology Development Project, “Development of the Advanced Technology of Nuclear Power Plant Structures Quality on Performance Improvement and Density Reinforcement” (No. 201016101004L).
REFERENCES (17)
1.
ACI Committee 226. ACI Manual of Concrete Practice. 226.1R., pp. 1–16 (1989).
 
2.
Y. Arai, Materials Chemistry of Cement. Pressed by Chonnam National University. Korea. pp. 155-202 (1998).
 
3.
T. Bakharev, J. G. Sanjayan, Y. B. Cheng, Alkali activation of Australian slag cements. Cem. Con. Res. pp. 113-120 (1999).
 
4.
DIN EN 15167. Ground granulated blast furnace slag for use in concrete, mortar and grout.
 
5.
V. D. Gluhovsky, G. S. Rostoiskaia, G.V. Rumina, Silicates Ind., 48, 197 (1983).
 
6.
ACI Manual of Concrete Practice. 226.1R., pp. 1–16 (1989). 2. Y. Arai, Materials Chemistry of Cement. Pressed by Chonnam National University. Korea. pp. 155-202 (1998). 3. T. Bakharev, J. G. Sanjayan, Y. B. Cheng, Alkali activation of Australian slag cements. Cem. Con. Res. pp. 113-120 (1999). 4. DIN EN 1516.
 
7.
Ground granulated blast furnace slag for use in concrete, mortar and grout. 5. V. D. Gluhovsky, G. S. Rostoiskaia, G.V. Rumina, Silicates Ind., 48, 197 (1983). 6. J. W. Ko, Low Carbon, Geopolymer Concrete Technology. Jour. Kor. Rec. Cons. Reso. Ins., 6, 3. p. 18 (2011). 7. H. Kűhl, Zement Chemie, Verlag Technik, Berlin 1952.
 
8.
KS F 4009, Ready-mixed concrete.
 
9.
J. Malolepszy, 8th International Congress on the Chemistry of Cement, Rio de Janeiro, vol. IV, p. 104, Rio de Janeiro 1986.
 
10.
P. K. Metha, Paulo J. M. Monteiro, Concrete Microstructure, Properties, Materials. The McGraw-Hill Companies, Inc. pp. 99-105 (2006).
 
11.
P. K. Metha, Presented at the 3rd International Conference on Fly Ash, Silica Fume, and Natural Pozzolans in Concrete, Tronheim, Norway, pp. 1-43 (1989).
 
12.
S. Mindess, J. F. Young, D. Darwin, Concrete. Pearson Education, Inc. pp. 193-220 (2003).
 
13.
F. Puertas, S. MartõÂnez-RamõÂrez, S. Alonso, T. VaÂzquez, Alkaliactivated fl y ash/slag cement Strength behavior and hydration products., Cem. Con. Res. pp. 1625-1632 (2000).
 
14.
C. Shi, L. D. Robert, Chemical Activation of Lime-Slag Blends, ACI SP 153-61, pp. 1165-77 (1995).
 
15.
S. Song, D. Sohn, H. M. Jennings, T. O. Mason, Hydration of alkaliactivated ground granulated blast furnace slag, Jour. Mater. Sci., pp. 249-257 (2000).
 
16.
H. Uchikawa, 8th International Congress on the Chemistry of Cement, Rio de Janeiro, Vol. 3, p. 249 (1986).
 
17.
S. D. Wang, X. C. Pu, K. L. Scrivener, P. L. Pratt, Alkali-activated slag cement and concrete; a review of properties and problems, Adv. Cem. Res., pp. 93-102 (1995).
 
ISSN:1425-8129
Journals System - logo
Scroll to top