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Gelation of waterglasses depending on their composition
Otřísalová, Pavlína ; Kalina, Lukáš (referee) ; Bílek, Vlastimil (advisor)
This bachelor thesis studies how are gelation of sodium and potassium silicates (water glass) influenced by their composition. The main goal of the thesis was to investigate the effect of silicate concentration, molar ratio, and alkaline ions on the gelation time. Qualitative analysis of obtained gels was also performed. The thesis includes literature research in the field of chemistry of silicate sols and gels. In the experimental part were prepared samples of both sodium and potassium silicates with silicate concentrations of 15 M and molar ratios of 0,53,0. Gelation was induced by adding calcium ions. Gelation time was measured using rheological oscillation tests (time sweep) and visual method. Qualitative analysis of the gels was performed using rheological oscillation tests (amplitude and frequency sweep) and visual method. Three significant trends were observed: 1) NaVS samples always had shorter gelation time than KVS samples 2) the higher the silicate concentration the higher the gelation time 3) gelation time of samples with molar ration of 2 was most influenced by silicate concentration. It was also observed that the formation of gel network was promoted in systems with 1) higher molar ratios 2) higher silicate concentrations 3) presence of K+ ions. Gels with molar ratios 2 were significantly weaker than those with ratio of 2,5 or 3,0.
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Effect of activator type on rheology of alkali-activated slag
Markusík, David ; Smilek, Jiří (referee) ; Bílek, Vlastimil (advisor)
This work deals with rheology of alkali-activated slag pastes (AAP) because of importance of these properties in building connectors for processing and application. The effects of different concentrations of sodium and potassium hydroxides activation solutions on the rheological properties of prepared AAP are examined. For the basic characterization of activation solutions, rotational and rheological measurements of AAS were made, and were compared to measurements from the flow table. Dependences of setting time on the activator concentration and rheological and calorimetric monitoring of hydration progress were also investigated. The findings prove a major influence of concentration and activator type on any determinations made. In pastes activated by potassium hydroxide, fluidity increases with increasing concentration, which correlates with increases in values on the shake table. In case of sodium hydroxide, with the increasing concentration, fluidity increases up to 25 wt. %. The following sharp reduction in fluidity correlates to the values on the flow table as well as with the storage modulus courses from oscillation measurements. In the first minutes after mixing, there was evidence of a sharper increase in yield point for pastes with higher activator concentrations.
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Effect of activator type on rheology of alkali-activated slag
Markusík, David ; Smilek, Jiří (referee) ; Bílek, Vlastimil (advisor)
This work deals with rheology of alkali-activated slag pastes (AAP) because of importance of these properties in building connectors for processing and application. The effects of different concentrations of sodium and potassium hydroxides activation solutions on the rheological properties of prepared AAP are examined. For the basic characterization of activation solutions, rotational and rheological measurements of AAS were made, and were compared to measurements from the flow table. Dependences of setting time on the activator concentration and rheological and calorimetric monitoring of hydration progress were also investigated. The findings prove a major influence of concentration and activator type on any determinations made. In pastes activated by potassium hydroxide, fluidity increases with increasing concentration, which correlates with increases in values on the shake table. In case of sodium hydroxide, with the increasing concentration, fluidity increases up to 25 wt. %. The following sharp reduction in fluidity correlates to the values on the flow table as well as with the storage modulus courses from oscillation measurements. In the first minutes after mixing, there was evidence of a sharper increase in yield point for pastes with higher activator concentrations.
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