THERMODYNAMIC STABILITY AND ELASTIC PROPERTIES OF Fe-Al-BASED SUPERALLOYS

• Authors: ŠOB Mojmír; FRIÁK Martin; ŠESTÁK Petr; ŘEHÁK Petr; ČERNÝ Miroslav; VŠIANSKÁ Monika; PAVLŮ Jana; MIHÁLIKOVÁ Ivana; SLÁVIK Anton; MAZALOVÁ Martina; KOPECKÝ Vojtěch; KOUTNÁ Nikola
• Year of publication: 2019
• Type: Chapter of a book
• MU Faculty or unit: Faculty of Science
• Description: Our modern highly industrialized society increasingly requires new structural materials for high-temperature applications in automotive and energy-producing industrial sectors. These new materials will allow (i) for higher operational temperatures in energy-conversion units, and, consequently, (ii) for a higher efficiency, resulting in significant energy savings and lower emissions. Such major advancements will not be possible without a deeper fundamental understanding of structure-property relations spanning from atomistic to microstructural levels. Fe-Al-based superalloys represent a very promising class of materials which can potentially replace expensive Ni-based superalloys used as materials for, e.g. turbine blades in aircraft engines operating at high-temperatures and under high-pressures. To design new Fe-Al-based alloys, a challenging materials-design approach should be adopted to identify suitable combinations of alloying elements.

Related projects

• CERIT Scientific Cloud
• CEITEC 2020
• Teorií vedený vývoj nových superslitin na bázi Fe-Al