Publication detail
Metallurgical Processing of CoCrFeNi High-Entropy Alloy
MÜLLER, P. ZÁDĚRA, A. ČAMEK, L. MYŠKA, M. PERNICA, V.
English title
Metallurgical Processing of CoCrFeNi High-Entropy Alloy
Type
journal article in Web of Science
Language
en
Original abstract
High-entropy alloys (HEA) is a group of metallic materials that is currently experiencing great development in materials science. While conventional alloys are based on a majority of a primary element with some number of added elements, HEAs are based on multiple (usually more than 5) elements that reach equimolar/equiatomic content. With the right combination of elements, properties can be achieved that could predispose HEAs for practical applications. In the fabrication of HEAs in previous research, pure metals have been predominantly used as the charging material. However, the use of common industrial charge with limited purity is crucial for the more economically viable use of HEAs in industry. Such a charge material may contain accompanying elements which may have an undesirable effect on the properties of the alloy. In order to achieve optimum alloy properties, it is necessary to minimise their content using various metallurgical processes. The aim of the work was the metallurgical processing of CoCrFeNi alloy melted from scrap metal in an induction furnace. The desired reduction of carbon (to 100 ppm) and nitrogen content (from 660 to ~60 ppm) was reached by using carbon reaction under vacuum. Significant reduction in oxygen content (to ~120 ppm) was reached after a deoxidation with aluminium and slight reduction in sulphur content (~25%, to 120 ppm) was reached after a desulphurisation with rare earth metals.
English abstract
High-entropy alloys (HEA) is a group of metallic materials that is currently experiencing great development in materials science. While conventional alloys are based on a majority of a primary element with some number of added elements, HEAs are based on multiple (usually more than 5) elements that reach equimolar/equiatomic content. With the right combination of elements, properties can be achieved that could predispose HEAs for practical applications. In the fabrication of HEAs in previous research, pure metals have been predominantly used as the charging material. However, the use of common industrial charge with limited purity is crucial for the more economically viable use of HEAs in industry. Such a charge material may contain accompanying elements which may have an undesirable effect on the properties of the alloy. In order to achieve optimum alloy properties, it is necessary to minimise their content using various metallurgical processes. The aim of the work was the metallurgical processing of CoCrFeNi alloy melted from scrap metal in an induction furnace. The desired reduction of carbon (to 100 ppm) and nitrogen content (from 660 to ~60 ppm) was reached by using carbon reaction under vacuum. Significant reduction in oxygen content (to ~120 ppm) was reached after a deoxidation with aluminium and slight reduction in sulphur content (~25%, to 120 ppm) was reached after a desulphurisation with rare earth metals.
Keywords in English
High-entropy alloys, CoCrFeNi, Decarburisation, Deoxidation, Desulphurisation
Released
24.12.2024
Publisher
Polish Academy of Sciences
Location
Katowice, Polsko
ISSN
2299-2944
Volume
24
Number
4
Pages from–to
56–62
Pages count
7
BIBTEX
@article{BUT197263,
author="Peter {Müller} and Antonín {Záděra} and Libor {Čamek} and Martin {Myška} and Vítězslav {Pernica},
title="Metallurgical Processing of CoCrFeNi High-Entropy Alloy",
year="2024",
volume="24",
number="4",
month="December",
pages="56--62",
publisher="Polish Academy of Sciences ",
address="Katowice, Polsko",
issn="2299-2944"
}