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Alkali Activated Systems
Bílek, Vlastimil ; Rovnaník, Pavel (referee) ; Vlček, Jozef (referee) ; Ptáček, Petr (advisor)
This doctoral thesis is focused on the possibilities of alkali-activated slag (AAS) shrinkage reduction, which would together with the use of waste sludge from waterglass production contribute to wider practical utilization of this interesting material. Besides the influence on AAS dimensional changes also effect of various factors on workability, setting time and mechanical properties was investigated. Obtained results were supported by the application of instrumental techniques like izotermal calorimetry, mercury intrusion porosimetry, scanning electron microscopy and X-ray diffraction. The results show the possibilities of reduction of AAS drying shrinkage related to its cracking tendency through the combination of increased dose of waterglass and reduced water to slag ratio (w/b), partial replacement of slag by pulverized fly ash or cement by-pass dust and application of organic admixtures, where significant effect on AAS hydration was observed. On the basis of the obtained results concrete mixtures, where the whole activator was replaced by the waste sludge form waterglass production, were designed and optimized in terms of shrinkage, mechanical properties and price. Selected concretes were also tested in semi-operating conditions.
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Action of organic additives in various alkali-activated binders
Markusík, David ; Kalina, Lukáš (referee) ; Bílek, Vlastimil (advisor)
This thesis explores the influence of admixtures (lignosulfonate plasticizer, hexylene glycol) on the rheology of AAM. With the characterized precursors, the rheology of AAM without admixtures is examined based on the chosen activator. Then the influence of the additives was measured. Rheological measurements were complemented by the determination of LS admixture adsorption on chosen precursors in solutions of NaOH, NaVS, and Na2CO3, and the determination of zeta potential of chosen plastified AAP. For comparison, measurements of cement pastes with the same admixtures were made in parallel to the AAM. the ability of plasticizer to improve the workability of slag and fly ash-based AAM when activated by NaOH was observed. No plastifying effect was found in MK-based pastes in none of the studied environments. The rheological measurements are in accord with most of the measured adsorptions and determined zeta potentials. In the case of hexylene glycol, the rheology of pastes is primarily influenced by the combination of precursors and admixtures. With hexylene glycol admixture the NaVS activator is inapplicable because silicates and hexylene glycol interact and worsen the rheological properties of the AAP.
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Action of organic additives in various alkali-activated binders
Markusík, David ; Kalina, Lukáš (referee) ; Bílek, Vlastimil (advisor)
This thesis explores the influence of admixtures (lignosulfonate plasticizer, hexylene glycol) on the rheology of AAM. With the characterized precursors, the rheology of AAM without admixtures is examined based on the chosen activator. Then the influence of the additives was measured. Rheological measurements were complemented by the determination of LS admixture adsorption on chosen precursors in solutions of NaOH, NaVS, and Na2CO3, and the determination of zeta potential of chosen plastified AAP. For comparison, measurements of cement pastes with the same admixtures were made in parallel to the AAM. the ability of plasticizer to improve the workability of slag and fly ash-based AAM when activated by NaOH was observed. No plastifying effect was found in MK-based pastes in none of the studied environments. The rheological measurements are in accord with most of the measured adsorptions and determined zeta potentials. In the case of hexylene glycol, the rheology of pastes is primarily influenced by the combination of precursors and admixtures. With hexylene glycol admixture the NaVS activator is inapplicable because silicates and hexylene glycol interact and worsen the rheological properties of the AAP.
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Alkali Activated Systems
Bílek, Vlastimil ; Rovnaník, Pavel (referee) ; Vlček, Jozef (referee) ; Ptáček, Petr (advisor)
This doctoral thesis is focused on the possibilities of alkali-activated slag (AAS) shrinkage reduction, which would together with the use of waste sludge from waterglass production contribute to wider practical utilization of this interesting material. Besides the influence on AAS dimensional changes also effect of various factors on workability, setting time and mechanical properties was investigated. Obtained results were supported by the application of instrumental techniques like izotermal calorimetry, mercury intrusion porosimetry, scanning electron microscopy and X-ray diffraction. The results show the possibilities of reduction of AAS drying shrinkage related to its cracking tendency through the combination of increased dose of waterglass and reduced water to slag ratio (w/b), partial replacement of slag by pulverized fly ash or cement by-pass dust and application of organic admixtures, where significant effect on AAS hydration was observed. On the basis of the obtained results concrete mixtures, where the whole activator was replaced by the waste sludge form waterglass production, were designed and optimized in terms of shrinkage, mechanical properties and price. Selected concretes were also tested in semi-operating conditions.
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