Fig xA and day capillary water absorption

Fig. 11. 28-, 91- and 182-day capillary water Biotin Hydrazide for binary mixes with LF.Figure optionsDownload full-size imageDownload as PowerPoint slide
Fig. 12. 28-, 91- and 182-day capillary water absorption in binary mixes with FA.Figure optionsDownload full-size imageDownload as PowerPoint slide
Fig. 13. 28-, 91- and 182-day capillary water absorption in ternary mixes.Figure optionsDownload full-size imageDownload as PowerPoint slide
Fig. 14. Capillary absorption coefficient for all mixes.Figure optionsDownload full-size imageDownload as PowerPoint slide
An analysis of the results obtained shows that capillarity is influenced by the use of additions and their type, in the production of SCC. This is highlighted by the level of the lowest values of the SCC3.FA mixes, by comparison to those of the SCC2.LF mixes, as well as by the differences obtained as age increases.
For all the mixes studied, capillarity decreases the longer the curing period and increases for higher values of fad. As seen in these figures, there is no significant difference in the mixes with fad of 30% (in those with LF and with FA) when compared to the SCC without additions. The same happens with the ternary mixes, in which the trend mentioned extends to the mixes with fad of 60%, showing, from this point of view, a very favourable behaviour at all ages.