Thermally induced structural evolution and age-hardening of polycrystalline V1–xMoxN (x ≈ 0.4) thin films
Thermally induced structural evolution and age-hardening of polycrystalline V1–xMoxN (x ≈ 0.4) thin films
Rocksalt-structure (B1) (V,Mo)N alloys are inherently hard and tough ceramics. However, the mechanical properties and thermal stability of (V,Mo)N solid solutions at temperatures ⪆ 700 °C of relevance for practical applications have not been previously investigated. In this work, we synthesize single-phase B1 polycrystalline V0.57Mo0.43N0.95 coatings to investigate the effects induced by temperature on the nanostructural evolution and hardness (H) of the material. Nanoindentation measurements show that the as-deposited film (H = 23 ± 3 GPa) becomes ≈30% harder (up to 31 ± 2 GPa) upon annealing at 730 °C. Experimental characterization and analyses, based on dispersive X-ray spectroscopy, X-ray diffraction (XRD), and transmission electron microscopy (TEM), reveal that the age-hardening effect originates from decomposition of the solid solution into coherent strained cubic VN-rich/MoN-rich domains. The experimental results are complemented by the composition/temperature (V,Mo)N phase diagram – constructed upon ab initio molecular dynamics free-energies – which indicates that the separation observed in the solid solutions is of spinodal nature. Films annealed at temperatures exceeding 850 °C undergo structural coarsening, with formation of hexagonal MoxNy and cubic VN phases, which cause a decrease in hardness to ≈22 GPa. Our present findings indicate that (V,Mo)N coatings may offer outstanding mechanical performances during operation at elevated temperatures.
Mikula, Marián
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Uzon, Stela
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Hudec, Tomáš
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Grančič, Branislav
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Truchlý, Martin
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Roch, Tomáš
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Švec, Peter
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Satrapinskyy, Leonid
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Čaplovičová, Mária
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Greczynski, Grzegorz
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Petrov, Ivan
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Odén, Magnus
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Kúš, Peter
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Sangiovanni, Davide G.
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5 December 2021
Mikula, Marián
47820357-652d-493a-9a13-10046f75a1f9
Uzon, Stela
571831be-6a03-4ad7-9f8e-441e9dfb49e9
Hudec, Tomáš
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Grančič, Branislav
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Truchlý, Martin
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Roch, Tomáš
0369cab3-ea48-4dae-916c-4e2fb2a01e68
Švec, Peter
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Satrapinskyy, Leonid
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Čaplovičová, Mária
ba2fbd87-9b6c-4933-873f-62d30924899d
Greczynski, Grzegorz
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Petrov, Ivan
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Odén, Magnus
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Kúš, Peter
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Sangiovanni, Davide G.
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Mikula, Marián, Uzon, Stela, Hudec, Tomáš, Grančič, Branislav, Truchlý, Martin, Roch, Tomáš, Švec, Peter, Satrapinskyy, Leonid, Čaplovičová, Mária, Greczynski, Grzegorz, Petrov, Ivan, Odén, Magnus, Kúš, Peter and Sangiovanni, Davide G.
(2021)
Thermally induced structural evolution and age-hardening of polycrystalline V1–xMoxN (x ≈ 0.4) thin films.
Surface and Coatings Technology, 405, [126723].
(doi:10.1016/j.surfcoat.2020.126723).
Abstract
Rocksalt-structure (B1) (V,Mo)N alloys are inherently hard and tough ceramics. However, the mechanical properties and thermal stability of (V,Mo)N solid solutions at temperatures ⪆ 700 °C of relevance for practical applications have not been previously investigated. In this work, we synthesize single-phase B1 polycrystalline V0.57Mo0.43N0.95 coatings to investigate the effects induced by temperature on the nanostructural evolution and hardness (H) of the material. Nanoindentation measurements show that the as-deposited film (H = 23 ± 3 GPa) becomes ≈30% harder (up to 31 ± 2 GPa) upon annealing at 730 °C. Experimental characterization and analyses, based on dispersive X-ray spectroscopy, X-ray diffraction (XRD), and transmission electron microscopy (TEM), reveal that the age-hardening effect originates from decomposition of the solid solution into coherent strained cubic VN-rich/MoN-rich domains. The experimental results are complemented by the composition/temperature (V,Mo)N phase diagram – constructed upon ab initio molecular dynamics free-energies – which indicates that the separation observed in the solid solutions is of spinodal nature. Films annealed at temperatures exceeding 850 °C undergo structural coarsening, with formation of hexagonal MoxNy and cubic VN phases, which cause a decrease in hardness to ≈22 GPa. Our present findings indicate that (V,Mo)N coatings may offer outstanding mechanical performances during operation at elevated temperatures.
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Accepted/In Press date: 3 December 2020
e-pub ahead of print date: 3 December 2020
Published date: 5 December 2021
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Local EPrints ID: 468168
URI: http://eprints.soton.ac.uk/id/eprint/468168
ISSN: 0257-8972
PURE UUID: 4740ae37-7222-41c7-8b42-78ed0b54b212
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Date deposited: 04 Aug 2022 16:40
Last modified: 16 Mar 2024 17:28
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Contributors
Author:
Marián Mikula
Author:
Stela Uzon
Author:
Branislav Grančič
Author:
Martin Truchlý
Author:
Tomáš Roch
Author:
Peter Švec
Author:
Leonid Satrapinskyy
Author:
Mária Čaplovičová
Author:
Grzegorz Greczynski
Author:
Ivan Petrov
Author:
Magnus Odén
Author:
Peter Kúš
Author:
Davide G. Sangiovanni
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