Отправить статью по E-mail Formation of Superhard State of the TiZrHfNbTaYN Vacuum–Arc High-Entropy Coating
- Авторы: Beresnev V.M.1, Sobol’ O.V.2, Andreev A.A.3, Gorban’ V.F.4, Klimenko S.A.5, Litovchenko S.V.1, Kovteba D.V.3, Meilekhov A.A.2, Postel’nik A.A.2, Nemchenko U.S.1, Novikov V.Y.6, Maziilin B.A.1
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Учреждения:
- Karazin Khar’kiv National University
- National Tekhnical University Khar’kiv Polytechnic Institute
- National Science Center Khar’kiv Institute of Physics and Technology
- Frantsevich Institute of Materials Science Problems
- Bakul Institute for Superhard Materials
- Belgorod National State research university
- Выпуск: Том 40, № 2 (2018)
- Страницы: 102-109
- Раздел: Production, Structure, Properties
- URL: https://journals.rcsi.science/1063-4576/article/view/186132
- DOI: https://doi.org/10.3103/S1063457618020041
- ID: 186132
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Аннотация
Complex studies of the formation of the superhard state in the TiZrHfNbTaYN vacuum-arc high-entropy coating were carried out. Based on the approach of the structural surface engineering, the regularities of the formation of the triads composition–structure–physico-mechanical properties depending on the supplied potential displacement are established. It is shown that the increase of Ub at the formation of a coating leads to a decrease of the relative content of a light (Ti) and increase of a heavy (Ta, Hf) metal components, which is determined by radiationally stimulated processes in a near-surface region at the deposition. The formation of the single-phase state (based on the fcc of metal lattice) in the range Ubfrom–50 to–250 V and revealed the formation of the preferred orientation of the crystallites with the axis [111], which is perpendicular to the growth plane. The increase of the perfection of the texture with the [111] axis with increasing Ub is accompanied with an increase of the coatings hardness, which makes it possible to achieve the superhard state (H = 40.2 GPa) at Ub =–250 V.
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Об авторах
V. Beresnev
Karazin Khar’kiv National University
Email: atmu@meta.ua
Украина, Khar’kiv
O. Sobol’
National Tekhnical University Khar’kiv Polytechnic Institute
Email: atmu@meta.ua
Украина, Khar’kov
A. Andreev
National Science Center Khar’kiv Institute of Physics and Technology
Email: atmu@meta.ua
Украина, Khar’kiv
V. Gorban’
Frantsevich Institute of Materials Science Problems
Email: atmu@meta.ua
Украина, Kiev
S. Klimenko
Bakul Institute for Superhard Materials
Автор, ответственный за переписку.
Email: atmu@meta.ua
Украина, Kiev
S. Litovchenko
Karazin Khar’kiv National University
Email: atmu@meta.ua
Украина, Khar’kiv
D. Kovteba
National Science Center Khar’kiv Institute of Physics and Technology
Email: atmu@meta.ua
Украина, Khar’kiv
A. Meilekhov
National Tekhnical University Khar’kiv Polytechnic Institute
Email: atmu@meta.ua
Украина, Khar’kov
A. Postel’nik
National Tekhnical University Khar’kiv Polytechnic Institute
Email: atmu@meta.ua
Украина, Khar’kov
U. Nemchenko
Karazin Khar’kiv National University
Email: atmu@meta.ua
Украина, Khar’kiv
V. Novikov
Belgorod National State research university
Email: atmu@meta.ua
Россия, Belgorod
B. Maziilin
Karazin Khar’kiv National University
Email: atmu@meta.ua
Украина, Khar’kiv
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