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@inbook{1645997, author = {Šob, Mojmír and Friák, Martin and Šesták, Petr and Řehák, Petr and Černý, Miroslav and Všianská, Monika and Pavlů, Jana and Miháliková, Ivana and Slávik, Anton and Mazalová, Martina and Kopecký, Vojtěch and Koutná, Nikola}, address = {Ostrava}, booktitle = {SUPERCOMPUTING IN SCIENCE AND ENGINEERING 2017–18}, edition = {1}, editor = {Karina Pešatová, Barbora Poláková, John Cawley, Zuzana Červenková}, keywords = {THERMODYNAMIC STABILITY; ELASTIC PROPERTIES}, howpublished = {tištěná verze "print"}, language = {eng}, location = {Ostrava}, isbn = {978-80-248-4289-9}, pages = {106-109}, publisher = {VSB – Technical University of Ostrava}, title = {THERMODYNAMIC STABILITY AND ELASTIC PROPERTIES OF Fe-Al-BASED SUPERALLOYS}, url = {https://www.it4i.cz/wp-content/uploads/2019/04/Supercomputing-in-Science-and-Engineering_preview.pdf}, year = {2019} }
TY - CHAP ID - 1645997 AU - Šob, Mojmír - Friák, Martin - Šesták, Petr - Řehák, Petr - Černý, Miroslav - Všianská, Monika - Pavlů, Jana - Miháliková, Ivana - Slávik, Anton - Mazalová, Martina - Kopecký, Vojtěch - Koutná, Nikola PY - 2019 TI - THERMODYNAMIC STABILITY AND ELASTIC PROPERTIES OF Fe-Al-BASED SUPERALLOYS VL - Neuveden PB - VSB – Technical University of Ostrava CY - Ostrava SN - 9788024842899 KW - THERMODYNAMIC STABILITY KW - ELASTIC PROPERTIES UR - https://www.it4i.cz/wp-content/uploads/2019/04/Supercomputing-in-Science-and-Engineering_preview.pdf L2 - https://www.it4i.cz/wp-content/uploads/2019/04/Supercomputing-in-Science-and-Engineering_preview.pdf N2 - 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. ER -
ŠOB, Mojmír, Martin FRIÁK, Petr ŠESTÁK, Petr ŘEHÁK, Miroslav ČERNÝ, Monika VŠIANSKÁ, Jana PAVLŮ, Ivana MIHÁLIKOVÁ, Anton SLÁVIK, Martina MAZALOVÁ, Vojtěch KOPECKÝ a Nikola KOUTNÁ. THERMODYNAMIC STABILITY AND ELASTIC PROPERTIES OF Fe-Al-BASED SUPERALLOYS. In Karina Pešatová, Barbora Poláková, John Cawley, Zuzana Červenková. \textit{SUPERCOMPUTING IN SCIENCE AND ENGINEERING 2017–18}. 1. vyd. Ostrava: VSB – Technical University of Ostrava, 2019, s.~106-109. ISBN~978-80-248-4289-9.
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