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High-strength macrodefect-free composites for refractory applications
Ryšková, Martina ; Másilko, Jiří (referee) ; Šoukal, František (advisor)
The subject of the bachelor thesis is the study of heat-resistant macrodefect-free (MDF) cements based on calcium-aluminate cement and organic polymer polyvinylalcohol. Macrodefect-free cements are particularly important in excellent mechanical parameters, which include tensile strength in bending. These materials are characterized by their low porosity and the absence of microcracks. The main role of the MDF cements takes binding and non-flush interaction with polymer cement, which affect the chemical and physical-mechanical properties. The main problem in applying the MDF cements is the low water resistance. To prepare macrodefect-free samples were used calcium-aluminate cement (SECAR 51, SECAR 71) and polymer polyvinyl Gohsenol GH 17S. They were observed changes in mechanical properties depend on the type of curing samples were cured at laboratory temperature and 70°C. Samples annealed at 1000 ° C and then tested for tensile strength in bending before and after annealing, compared to mechanical properties. Thermal stress was tested by doping a microscope TGA-DTA-EGA and TMA analysis.
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Development of methodology for study of mechanical activation of chemical reactions at phase boundaries
Matoušek, David ; Kalina, Lukáš (referee) ; Šoukal, František (advisor)
This Bachelor thesis deals with impact of mechanochemical activation on a nature of interphase region in macro-defect-free composites (MDF). MDF composites are highly perspective material on a polymer-cement basis. The most significant advantage of this material is high flexural strength (cca 150 MPa). High strength is caused by high-shear mixing of mixture of cement, polymer, water and plasticiser in twin-roll mill. High-shear stress leads to mechanical activation of reactions between cement and polymer and creation of weak or even strong interactions in interphase region. This work aimed on creation of interphase region by contact of surfaces of two moulded tablets – polyvinyl alcohol and monocalcium aluminate. Next step was construction of simple apparatus, able to define the rate of mechanical activation in interphase region. The most important part of this work concentrated on analysis of activated interphase region by XPS.
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Polymer-cement composites of increased refractoriness
Ryšková, Martina ; Opravil, Tomáš (referee) ; Šoukal, František (advisor)
The subject of the diploma thesis is the preparation of macro-defect-free (MDF) composites based on calcium-aluminate cement and organic polymer polyvinylalcohol. Attention focused on the optimization of the dose, the degree of hydrolysis and molecular weight of the polymer with respect to the heat resistance of the material. Thermal degradation of polyvinyl alcohol leads to changes in the structure of MDF composite. The study was mainly focused on the characteristics of polyvinyl alcohol dosage associated with the resultant mechanical properties of the material. During the work were monitored for changes in the mechanical properties of samples were cured at 60 °C and subsequently fired at 180 °C, 600 °C, 1000 °C and 1400 °C. It was tested in flexural strength, heat microscopy, TGA-DTA-EGA and SEM analysis.
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Polymer-cement composites of increased refractoriness
Ryšková, Martina ; Opravil, Tomáš (referee) ; Šoukal, František (advisor)
The subject of the diploma thesis is the preparation of macro-defect-free (MDF) composites based on calcium-aluminate cement and organic polymer polyvinylalcohol. Attention focused on the optimization of the dose, the degree of hydrolysis and molecular weight of the polymer with respect to the heat resistance of the material. Thermal degradation of polyvinyl alcohol leads to changes in the structure of MDF composite. The study was mainly focused on the characteristics of polyvinyl alcohol dosage associated with the resultant mechanical properties of the material. During the work were monitored for changes in the mechanical properties of samples were cured at 60 °C and subsequently fired at 180 °C, 600 °C, 1000 °C and 1400 °C. It was tested in flexural strength, heat microscopy, TGA-DTA-EGA and SEM analysis.
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Development of methodology for study of mechanical activation of chemical reactions at phase boundaries
Matoušek, David ; Kalina, Lukáš (referee) ; Šoukal, František (advisor)
This Bachelor thesis deals with impact of mechanochemical activation on a nature of interphase region in macro-defect-free composites (MDF). MDF composites are highly perspective material on a polymer-cement basis. The most significant advantage of this material is high flexural strength (cca 150 MPa). High strength is caused by high-shear mixing of mixture of cement, polymer, water and plasticiser in twin-roll mill. High-shear stress leads to mechanical activation of reactions between cement and polymer and creation of weak or even strong interactions in interphase region. This work aimed on creation of interphase region by contact of surfaces of two moulded tablets – polyvinyl alcohol and monocalcium aluminate. Next step was construction of simple apparatus, able to define the rate of mechanical activation in interphase region. The most important part of this work concentrated on analysis of activated interphase region by XPS.
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High-strength macrodefect-free composites for refractory applications
Ryšková, Martina ; Másilko, Jiří (referee) ; Šoukal, František (advisor)
The subject of the bachelor thesis is the study of heat-resistant macrodefect-free (MDF) cements based on calcium-aluminate cement and organic polymer polyvinylalcohol. Macrodefect-free cements are particularly important in excellent mechanical parameters, which include tensile strength in bending. These materials are characterized by their low porosity and the absence of microcracks. The main role of the MDF cements takes binding and non-flush interaction with polymer cement, which affect the chemical and physical-mechanical properties. The main problem in applying the MDF cements is the low water resistance. To prepare macrodefect-free samples were used calcium-aluminate cement (SECAR 51, SECAR 71) and polymer polyvinyl Gohsenol GH 17S. They were observed changes in mechanical properties depend on the type of curing samples were cured at laboratory temperature and 70°C. Samples annealed at 1000 ° C and then tested for tensile strength in bending before and after annealing, compared to mechanical properties. Thermal stress was tested by doping a microscope TGA-DTA-EGA and TMA analysis.
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