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Effect of heat treatments on the microstructure and hardness of high-entropy alloy
Jesenská, Mária Ľudmila ; Adam, Ondřej (referee) ; Moravčíková de Almeida Gouvea, Larissa (advisor)
V tejto práci je študovaná neekviatomická Al0.2Co1.5CrFeNi1.5Ti vysoko entropická zliatina, ktorá bola vyrobená pomocou vákuového indukčného tavenia. Zliatina v odliatom stave bola analyzovaná a tepelne spracovaná pri teplote 1000 °C po dobu 5h, a následne podrobená tepelnému spracovaniu pri teplote 750 °C po dobu ďalších 5h, s cieľom skúmania vplyvu teploty a doby tepelného spracovania na fázové zloženie, mikroštruktúru a mechanické vlastnosti. Na vyhodnotenie možných fáz prítomných v zliatine bol použitý pseudobinárny fázový diagram (CALPHAD). Mikroštruktúra zliatin bola charakterizovaná a chemicky analyzovaná pomocou röntgenovej difrakcie (XRD), elektrónovej mikroskopie (SEM) a energeticky disperznej spektroskopie. Výsledné vyhodnotenie tvrdosti materiálu prebehlo pomocou skúšok mikrotvrdosti a nanoindentácie.
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Phase Transformations during Heat Treatment of Fe - C Materials
Škvarka, Jakub ; Pacal, Bohumil (referee) ; Molliková, Eva (advisor)
The goal of this thesis is a study of heat treatment of iron-carbon alloys from a physical angle. Characteristics of main components from this system and their modifications are described there. There is also described what is going on during heat treatment especially from an angle of thermodynamics and kinetics, thanks to available information from literature. The knowledge is applied on specific types of heat treatment of material and processes which can follow it.
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The influence of heat treatment on magnetic properties of additive manufactured stainless steel components
Schäffer, Matúš ; Hutař, Pavel (referee) ; Paloušek, David (advisor)
The aim of this master thesis is selection of heat treatment for additive manufactured multimaterial components composed of 1.4404 and 1.4542 stainless steels regarding their magnetic and mechanical properties. Individual materials were studied after fabrication and also after the same heat treatments. The chosen process consists of solution annealing and subsequent precipitation hardening. A significantly higher value of maximum relative permeability and lower of coercive field of 1.4542 steel were achieved. At the same time, the relative permeability of 1.4404 was not considerably influenced. A decrease in Rp0,2 of 1.4404, but an increase in Rm and Rp0,2 values of 1.4542 steel were observed. Elongation at break A increased in the case of both alloys. The experiments proved that multimaterial components composed of these stainless steels can be successfully manufactured by SLM technology. It is therefore possible to design and manufacture stainless steel components of magnetic circuits and adjust their magnetic and mechanical properties by heat treatment.
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The influence of heat treatment on magnetic properties of additive manufactured stainless steel components
Schäffer, Matúš ; Hutař, Pavel (referee) ; Paloušek, David (advisor)
The aim of this master thesis is selection of heat treatment for additive manufactured multimaterial components composed of 1.4404 and 1.4542 stainless steels regarding their magnetic and mechanical properties. Individual materials were studied after fabrication and also after the same heat treatments. The chosen process consists of solution annealing and subsequent precipitation hardening. A significantly higher value of maximum relative permeability and lower of coercive field of 1.4542 steel were achieved. At the same time, the relative permeability of 1.4404 was not considerably influenced. A decrease in Rp0,2 of 1.4404, but an increase in Rm and Rp0,2 values of 1.4542 steel were observed. Elongation at break A increased in the case of both alloys. The experiments proved that multimaterial components composed of these stainless steels can be successfully manufactured by SLM technology. It is therefore possible to design and manufacture stainless steel components of magnetic circuits and adjust their magnetic and mechanical properties by heat treatment.
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Phase Transformations during Heat Treatment of Fe - C Materials
Škvarka, Jakub ; Pacal, Bohumil (referee) ; Molliková, Eva (advisor)
The goal of this thesis is a study of heat treatment of iron-carbon alloys from a physical angle. Characteristics of main components from this system and their modifications are described there. There is also described what is going on during heat treatment especially from an angle of thermodynamics and kinetics, thanks to available information from literature. The knowledge is applied on specific types of heat treatment of material and processes which can follow it.
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|
|
Effect of heat treatments on the microstructure and hardness of high-entropy alloy
Jesenská, Mária Ľudmila ; Adam, Ondřej (referee) ; Moravčíková de Almeida Gouvea, Larissa (advisor)
V tejto práci je študovaná neekviatomická Al0.2Co1.5CrFeNi1.5Ti vysoko entropická zliatina, ktorá bola vyrobená pomocou vákuového indukčného tavenia. Zliatina v odliatom stave bola analyzovaná a tepelne spracovaná pri teplote 1000 °C po dobu 5h, a následne podrobená tepelnému spracovaniu pri teplote 750 °C po dobu ďalších 5h, s cieľom skúmania vplyvu teploty a doby tepelného spracovania na fázové zloženie, mikroštruktúru a mechanické vlastnosti. Na vyhodnotenie možných fáz prítomných v zliatine bol použitý pseudobinárny fázový diagram (CALPHAD). Mikroštruktúra zliatin bola charakterizovaná a chemicky analyzovaná pomocou röntgenovej difrakcie (XRD), elektrónovej mikroskopie (SEM) a energeticky disperznej spektroskopie. Výsledné vyhodnotenie tvrdosti materiálu prebehlo pomocou skúšok mikrotvrdosti a nanoindentácie.
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