This paper analyses the effects of decalcification in concentrated 6 M NH4NO3 solution on mechanical and microstructural properties of alkali-activated slag (AAS). Portland-slag cement (CEM II/A-S 42.5 N) was used as a benchmark material. Decalcification process led to a decrease in strength, both in AAS and in CEM II, and this effect was more pronounced in CEM II. The decrease in strength was explicitly related to the decrease in Ca/Si atomic ratio of C-S-H gel. A very low ratio of Ca/Si similar to 0.3 in AAS was the consequence of coexistence of C-S-H(I) gel and silica gel. During decalcification of AAS almost complete leaching of sodium and tetrahedral aluminum from C-S-H(I) gel also took place. AAS showed significantly higher resistance to decalcification in relation to the benchmark CEM II due to the absence of portlandite, high level of polymerization of silicate chains, low level of aluminum for silicon substitution in the structure of C-S-H(1), and the formation of protective l...ayer of polymerized silica gel during decalcification process. In stabilization/solidification processes alkali-activated slag represents a more promising solution than Portland-slag cement due to significantly higher resistance to decalcification.
TY - JOUR
AU - Komljenović, Miroslav M
AU - Baščarević, Zvezdana
AU - Džunuzović, Nataša
AU - Nikolić, Violeta
PY - 2012
UR - http://rimsi.imsi.bg.ac.rs/handle/123456789/601
AB - This paper analyses the effects of decalcification in concentrated 6 M NH4NO3 solution on mechanical and microstructural properties of alkali-activated slag (AAS). Portland-slag cement (CEM II/A-S 42.5 N) was used as a benchmark material. Decalcification process led to a decrease in strength, both in AAS and in CEM II, and this effect was more pronounced in CEM II. The decrease in strength was explicitly related to the decrease in Ca/Si atomic ratio of C-S-H gel. A very low ratio of Ca/Si similar to 0.3 in AAS was the consequence of coexistence of C-S-H(I) gel and silica gel. During decalcification of AAS almost complete leaching of sodium and tetrahedral aluminum from C-S-H(I) gel also took place. AAS showed significantly higher resistance to decalcification in relation to the benchmark CEM II due to the absence of portlandite, high level of polymerization of silicate chains, low level of aluminum for silicon substitution in the structure of C-S-H(1), and the formation of protective layer of polymerized silica gel during decalcification process. In stabilization/solidification processes alkali-activated slag represents a more promising solution than Portland-slag cement due to significantly higher resistance to decalcification.
PB - Elsevier Science Bv, Amsterdam
T2 - Journal of Hazardous Materials
T1 - Decalcification resistance of alkali-activated slag
EP - 121
SP - 112
VL - 233
DO - 10.1016/j.jhazmat.2012.06.063
ER -
@article{
author = "Komljenović, Miroslav M and Baščarević, Zvezdana and Džunuzović, Nataša and Nikolić, Violeta",
year = "2012",
abstract = "This paper analyses the effects of decalcification in concentrated 6 M NH4NO3 solution on mechanical and microstructural properties of alkali-activated slag (AAS). Portland-slag cement (CEM II/A-S 42.5 N) was used as a benchmark material. Decalcification process led to a decrease in strength, both in AAS and in CEM II, and this effect was more pronounced in CEM II. The decrease in strength was explicitly related to the decrease in Ca/Si atomic ratio of C-S-H gel. A very low ratio of Ca/Si similar to 0.3 in AAS was the consequence of coexistence of C-S-H(I) gel and silica gel. During decalcification of AAS almost complete leaching of sodium and tetrahedral aluminum from C-S-H(I) gel also took place. AAS showed significantly higher resistance to decalcification in relation to the benchmark CEM II due to the absence of portlandite, high level of polymerization of silicate chains, low level of aluminum for silicon substitution in the structure of C-S-H(1), and the formation of protective layer of polymerized silica gel during decalcification process. In stabilization/solidification processes alkali-activated slag represents a more promising solution than Portland-slag cement due to significantly higher resistance to decalcification.",
publisher = "Elsevier Science Bv, Amsterdam",
journal = "Journal of Hazardous Materials",
title = "Decalcification resistance of alkali-activated slag",
pages = "121-112",
volume = "233",
doi = "10.1016/j.jhazmat.2012.06.063"
}
Komljenović, M. M., Baščarević, Z., Džunuzović, N.,& Nikolić, V.. (2012). Decalcification resistance of alkali-activated slag. in Journal of Hazardous Materials
Elsevier Science Bv, Amsterdam., 233, 112-121.
https://doi.org/10.1016/j.jhazmat.2012.06.063
Komljenović MM, Baščarević Z, Džunuzović N, Nikolić V. Decalcification resistance of alkali-activated slag. in Journal of Hazardous Materials. 2012;233:112-121.
doi:10.1016/j.jhazmat.2012.06.063 .
Komljenović, Miroslav M, Baščarević, Zvezdana, Džunuzović, Nataša, Nikolić, Violeta, "Decalcification resistance of alkali-activated slag" in Journal of Hazardous Materials, 233 (2012):112-121,
https://doi.org/10.1016/j.jhazmat.2012.06.063 . .
