Journal
CEMENT AND CONCRETE RESEARCH
Volume 76, Issue -, Pages 192-201Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.cemconres.2015.06.002
Keywords
Alkali-Aggregate Reaction (C); Lithium Compounds (D); Metakaolin (D); Concrete (E)
Funding
- Swiss National Science Foundation (SNSF) [206021_150638/1]
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In spite of the recent progress in the understanding of the mechanisms enabling aluminum-containing SCM like metakaolin and added LiNO3 to limit the extent of ASR in mortar and concrete, some gaps still remain. They concern mainly the effect of aluminum-containing SCM on the formed ASR products and the influence of aggregate characteristics on the effectiveness of LiNO3. In this study, a model system, concrete and mortar were investigated by pore solution analysis, TGA, XRD, NMR, SEM combined with EDX and ToF-SIMS to address these questions. The amount of aluminum present in the pore solution of concrete and mortar is only able to slow down SiO2 dissolution but not to alter morphology, structure and composition of the reaction products. LiNO3 can suppress ASR by forming dense products protecting reactive minerals from further reaction. But its effectiveness is decreasing with increasing specific surface area of the reactive minerals in aggregates. (C) 2015 Elsevier Ltd. All rights reserved.
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