1 |
AIJ, Design and Practice of Fire Performance Materials, pp.136-148, Archi. Insti. Jpn., 1993.
|
2 |
Z. P. Bazant and M. F. Kaplan, Concrete at High Temperatures, Material Properties and Mathematical Models; pp.6-26. longman House, England, 1993.
|
3 |
B.W. Jo, “Strength Behaviour and Hardening Mechanism of Alkali Activated Fly Ash Mortars (in Korean),” Proceedings of the Kor. Con. Insti, 321-24 (2004).
과학기술학회마을
|
4 |
A. Fernandez-Jimenez, A. Palomo, and M. Criado, “Microstructure Development of Alkali-activated Fly Ash Cement: A Descriptive Model,” Cem. Concr. Res. 35 1204-09 (2005)
DOI
ScienceOn
|
5 |
J. Davidovits, “Giopolymer Chemistry and Sustainable Development”, Proceedings of the Geopolymer, 9-15 (2005).
|
6 |
KICET, Development of Fire Protection Method for High Strength Concrete(in Korean); pp. 25-52, KICET, 2008.
|
7 |
AIJ, Diagnosis and Repair Methods of Fire Damaged Buildings, pp. 40-63, Archi. Insti. Jpn., 2004.
|
8 |
H, Song, S. H. Lee, and S. Sugahara, “Control method of Explosive Spalling for High Performance Concrete(in Korean),” J. Kor. Con. Insti., 17 [3] 33-9 (2005).
과학기술학회마을
|
9 |
H, Song, J. W. Ko, and S. Sugahara, “Thermal Properties and Explosive Spalling for High Strength Concrete(in Korean),” J. Kor. Con. Insti., 20 [5] 26-32 (2008).
과학기술학회마을
|