STUDY OF CORROSION RESISTANCE OF HIGH ENTROPY ALLOY Al0.5CoCrFeNi1.6Ti0.7 IN SEA WATER
High-entropy alloys (HEAs) are a relatively new type of alloys and interest is constantly growing. Unlike traditional alloys based on one or two main components, HEAs include five or more components in close to equimolar ratios. It is known that a number of HEAs exhibit a high level of useful proper...
Published in: | Bulletin of the South Ural State University Series ‘Metallurgy’ |
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ftsusunivojs:oai:ojs.vestnik.susu.ac.ru:article/12761 2023-05-15T17:43:51+02:00 STUDY OF CORROSION RESISTANCE OF HIGH ENTROPY ALLOY Al0.5CoCrFeNi1.6Ti0.7 IN SEA WATER ИЗУЧЕНИЕ КОРРОЗИОННОЙ СТОЙКОСТИ ВЫСОКОЭНТРОПИЙНОГО СПЛАВА Al0,5CoCrFeNi1,6Ti0,7 В МОРСКОЙ ВОДЕ Самойлова, О. В. Яньшина, Е. А. Могаддам, А. Остовари Трофимов, Е. А. The work was supported by the Ministry of Science and Higher Education of the Russian Federation within the framework of the FENU-2020-0020 project Работа поддержана Министерством науки и высшего образования Российской Федерации в рамках проекта FENU-2020-0020. 2023-01-11 application/pdf https://vestnik.susu.ru/metallurgy/article/view/12761 https://doi.org/10.14529/met220104 rus rus South Ural State University Южно-Уральский государственный университет https://vestnik.susu.ru/metallurgy/article/view/12761/9647 https://vestnik.susu.ru/metallurgy/article/view/12761 doi:10.14529/met220104 (c) 2023 Металлургия Metallurgy; Том 22, № 1 (2022); 33-41 Металлургия; Том 22, № 1 (2022); 33-41 2411-0906 1990-8482 high-entropy alloys corrosion resistance sea water protective films chromium oxide titanium oxide высокоэнтропийные сплавы коррозионная стойкость морская вода защитные пленки оксид хрома оксид титана info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion 2023 ftsusunivojs https://doi.org/10.14529/met220104 2023-01-17T17:35:35Z High-entropy alloys (HEAs) are a relatively new type of alloys and interest is constantly growing. Unlike traditional alloys based on one or two main components, HEAs include five or more components in close to equimolar ratios. It is known that a number of HEAs exhibit a high level of useful properties. Such alloys combine high strength and ductility, increased fatigue resistance, high hardness and wear resistance, and high thermal stability. The development of new compositions and the study of the properties of the obtained high-entropy alloys are currently topical materials science problems. The creation of corrosion-resistant HEAs and the study of their behavior in aqueous solutions of alkalis, acids and salts is justified by the possibility of applying coatings on products operated in aggressive aqueous solutions, including sea water. This work is devoted to the study of the corrosion resistance of the high-entropy alloy Al0.5CoCrFeNi1.6Ti0.7 in an aqueous solution – an analogue of sea water for 93 days in order to determine the long-term stability of this alloy when operating under the conditions of the Northern Sea Route. It is shown that this alloy has a complex multiphase structure, which does not worsen the corrosion resistance when operating in sea water. HEAs Al0.5CoCrFeNi1.6Ti0.7 demonstrates the change in mass according to the parabolic law. During the entire test period, the weight gain was about 2.7 mg/cm2. Most of the surface of the investigated alloy after testing is covered with a thin oxide film; the composition of the film is dominated by oxides of titanium, chromium and nickel. Высокоэнтропийные сплавы (ВЭС) – сравнительно новый вид сплавов и интерес к ним постоянно растет. В отличие от традиционных сплавов, базирующихся на одном-двух основных компонентах, ВЭС включают в себя пять и более компонентов в близких к эквимолярному соотношениях. Известно, что ряд ВЭС проявляют высокий уровень полезных свойств. Такие сплавы сочетают высокую прочность и пластичность, повышенное сопротивление ... Article in Journal/Newspaper Northern Sea Route Bulletin of the South Ural State University Bulletin of the South Ural State University Series ‘Metallurgy’ 22 1 33 41 |
institution |
Open Polar |
collection |
Bulletin of the South Ural State University |
op_collection_id |
ftsusunivojs |
language |
Russian |
topic |
high-entropy alloys corrosion resistance sea water protective films chromium oxide titanium oxide высокоэнтропийные сплавы коррозионная стойкость морская вода защитные пленки оксид хрома оксид титана |
spellingShingle |
high-entropy alloys corrosion resistance sea water protective films chromium oxide titanium oxide высокоэнтропийные сплавы коррозионная стойкость морская вода защитные пленки оксид хрома оксид титана Самойлова, О. В. Яньшина, Е. А. Могаддам, А. Остовари Трофимов, Е. А. STUDY OF CORROSION RESISTANCE OF HIGH ENTROPY ALLOY Al0.5CoCrFeNi1.6Ti0.7 IN SEA WATER |
topic_facet |
high-entropy alloys corrosion resistance sea water protective films chromium oxide titanium oxide высокоэнтропийные сплавы коррозионная стойкость морская вода защитные пленки оксид хрома оксид титана |
description |
High-entropy alloys (HEAs) are a relatively new type of alloys and interest is constantly growing. Unlike traditional alloys based on one or two main components, HEAs include five or more components in close to equimolar ratios. It is known that a number of HEAs exhibit a high level of useful properties. Such alloys combine high strength and ductility, increased fatigue resistance, high hardness and wear resistance, and high thermal stability. The development of new compositions and the study of the properties of the obtained high-entropy alloys are currently topical materials science problems. The creation of corrosion-resistant HEAs and the study of their behavior in aqueous solutions of alkalis, acids and salts is justified by the possibility of applying coatings on products operated in aggressive aqueous solutions, including sea water. This work is devoted to the study of the corrosion resistance of the high-entropy alloy Al0.5CoCrFeNi1.6Ti0.7 in an aqueous solution – an analogue of sea water for 93 days in order to determine the long-term stability of this alloy when operating under the conditions of the Northern Sea Route. It is shown that this alloy has a complex multiphase structure, which does not worsen the corrosion resistance when operating in sea water. HEAs Al0.5CoCrFeNi1.6Ti0.7 demonstrates the change in mass according to the parabolic law. During the entire test period, the weight gain was about 2.7 mg/cm2. Most of the surface of the investigated alloy after testing is covered with a thin oxide film; the composition of the film is dominated by oxides of titanium, chromium and nickel. Высокоэнтропийные сплавы (ВЭС) – сравнительно новый вид сплавов и интерес к ним постоянно растет. В отличие от традиционных сплавов, базирующихся на одном-двух основных компонентах, ВЭС включают в себя пять и более компонентов в близких к эквимолярному соотношениях. Известно, что ряд ВЭС проявляют высокий уровень полезных свойств. Такие сплавы сочетают высокую прочность и пластичность, повышенное сопротивление ... |
author2 |
The work was supported by the Ministry of Science and Higher Education of the Russian Federation within the framework of the FENU-2020-0020 project Работа поддержана Министерством науки и высшего образования Российской Федерации в рамках проекта FENU-2020-0020. |
format |
Article in Journal/Newspaper |
author |
Самойлова, О. В. Яньшина, Е. А. Могаддам, А. Остовари Трофимов, Е. А. |
author_facet |
Самойлова, О. В. Яньшина, Е. А. Могаддам, А. Остовари Трофимов, Е. А. |
author_sort |
Самойлова, О. В. |
title |
STUDY OF CORROSION RESISTANCE OF HIGH ENTROPY ALLOY Al0.5CoCrFeNi1.6Ti0.7 IN SEA WATER |
title_short |
STUDY OF CORROSION RESISTANCE OF HIGH ENTROPY ALLOY Al0.5CoCrFeNi1.6Ti0.7 IN SEA WATER |
title_full |
STUDY OF CORROSION RESISTANCE OF HIGH ENTROPY ALLOY Al0.5CoCrFeNi1.6Ti0.7 IN SEA WATER |
title_fullStr |
STUDY OF CORROSION RESISTANCE OF HIGH ENTROPY ALLOY Al0.5CoCrFeNi1.6Ti0.7 IN SEA WATER |
title_full_unstemmed |
STUDY OF CORROSION RESISTANCE OF HIGH ENTROPY ALLOY Al0.5CoCrFeNi1.6Ti0.7 IN SEA WATER |
title_sort |
study of corrosion resistance of high entropy alloy al0.5cocrfeni1.6ti0.7 in sea water |
publisher |
South Ural State University |
publishDate |
2023 |
url |
https://vestnik.susu.ru/metallurgy/article/view/12761 https://doi.org/10.14529/met220104 |
genre |
Northern Sea Route |
genre_facet |
Northern Sea Route |
op_source |
Metallurgy; Том 22, № 1 (2022); 33-41 Металлургия; Том 22, № 1 (2022); 33-41 2411-0906 1990-8482 |
op_relation |
https://vestnik.susu.ru/metallurgy/article/view/12761/9647 https://vestnik.susu.ru/metallurgy/article/view/12761 doi:10.14529/met220104 |
op_rights |
(c) 2023 Металлургия |
op_doi |
https://doi.org/10.14529/met220104 |
container_title |
Bulletin of the South Ural State University Series ‘Metallurgy’ |
container_volume |
22 |
container_issue |
1 |
container_start_page |
33 |
op_container_end_page |
41 |
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1766146006117777408 |