期刊
ADVANCES IN CEMENT RESEARCH
卷 31, 期 4, 页码 160-177出版社
ICE PUBLISHING
DOI: 10.1680/jadcr.18.00124
关键词
dimensional stability; expansive cement; thermodynamics
资金
- Innovation and Promotion Agency (CTI) Switzerland [14623.1 PFIW-IW]
- Saint-Gobain Weber AG, Winterthur, Switzerland
- EU Marie Curie Action of the People Programme (FP7) within the Co-funding of Regional, National and International Programmes (COFUND)
There is still an ongoing debate on the mechanisms of expansion of calcium sulfoaluminate (CSA) cements, which can be either favourable, for example, in shrinkage compensating construction materials, or deleterious in cases of excessive expansion. In order to expand on previous studies, CSA cements with molar ratios (M) of calcium sulfate/ye'elimite of 0.1, 1, 1.5 and 2 were investigated from 30 min to 182 d. All systems showed expansion, and expansion was found to increase with increasing gypsum content. The sample with M=2 showed a high expansion and severe cracking after 1 d of hydration. Based on the pore solution chemistry, crystallisation pressures were calculated, which revealed that not only ettringite, but also the other hydrate phases present (aluminium hydroxide (AH(3)), stratlingite, calcium aluminate decahydrate (CAH(10)), monosulfate) may contribute to the total crystallisation pressure. The percolation pore radii obtained by mercury intrusion porosimetry were used to calculate hydrostatic tensile stresses. It was found that in all investigated systems the hydrostatic tensile stresses exceeded the 1 d tensile strength, which is in line with the fact that all samples showed expansion.
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