A correlative experimental and theoretical investigation of phase formation and thermal stability of a quaternary Cr0.69Ta0.20B0.11N coating

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A correlative experimental and theoretical investigation of phase formation and thermal stability of a quaternary Cr0.69Ta0.20B0.11N coating. / Kainz, Christina; Patterer, Lena; Bogdanovski, Dimitri et al.
In: Materialia, Vol. 32.2023, No. December, 101931, 12.2023.

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Kainz, C., Patterer, L., Bogdanovski, D., Salman, S. A., Letofsky-Papst, I., Pohler, M., Czettl, C., Schneider, J. M., Mitterer, C., & Schalk, N. (2023). A correlative experimental and theoretical investigation of phase formation and thermal stability of a quaternary Cr0.69Ta0.20B0.11N coating. Materialia, 32.2023(December), Article 101931. https://doi.org/10.1016/j.mtla.2023.101931

Vancouver

Kainz C, Patterer L, Bogdanovski D, Salman SA, Letofsky-Papst I, Pohler M et al. A correlative experimental and theoretical investigation of phase formation and thermal stability of a quaternary Cr0.69Ta0.20B0.11N coating. Materialia. 2023 Dec;32.2023(December):101931. Epub 2023 Oct 16. doi: 10.1016/j.mtla.2023.101931

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@article{bc4c29f5040c4f928ba86836db3e1e45,
title = "A correlative experimental and theoretical investigation of phase formation and thermal stability of a quaternary Cr0.69Ta0.20B0.11N coating",
abstract = "In recent years, CrTa(B)N coatings deposited by physical vapor deposition have gained increasing interest due to their high hardness and good wear resistance. However, a detailed investigation of the microstructure of quaternary CrTaBN coatings both at ambient conditions and at elevated temperature is lacking in literature. Therefore, the present study provides an overview of the temperature-dependent phase formation and microstructure of a Cr 0.69Ta 0.20B 0.11N coating grown by cathodic arc deposition. The face-centered cubic Cr 1-x-yTa xB yN solid solution was found to be the only crystalline phase present in the as-deposited coating, with the B atoms exclusively forming B-N bonds. Both, atom probe tomography and transmission electron microscopy suggest that the B concentration is increased at the grain boundaries compared to within the grain. Annealing CrTaBN at 1000 °C provokes no change in the crystalline phase composition, but results in a reduction of the B content due to the formation of volatile B-containing compounds. In addition, B-metal bonds form upon annealing as a consequence of the CrN→Cr 2N+N decomposition. The here reported formation of B-N bonds in the as-deposited state and the annealing induced formation of B-metal bonds are consistent with density functional theory calculations of relaxed corresponding configurations as the energy differences between them are minute. The obtained findings provide a detailed insight into the phase formation of the given complex material system.",
author = "Christina Kainz and Lena Patterer and Dimitri Bogdanovski and Salman, {Sameer Aman} and Ilse Letofsky-Papst and Markus Pohler and Christoph Czettl and Schneider, {Jochen M.} and Christian Mitterer and Nina Schalk",
note = "Publisher Copyright: {\textcopyright} 2023 The Authors",
year = "2023",
month = dec,
doi = "10.1016/j.mtla.2023.101931",
language = "English",
volume = "32.2023",
journal = "Materialia",
issn = "2589-1529",
publisher = "Elsevier",
number = "December",

}

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TY - JOUR

T1 - A correlative experimental and theoretical investigation of phase formation and thermal stability of a quaternary Cr0.69Ta0.20B0.11N coating

AU - Kainz, Christina

AU - Patterer, Lena

AU - Bogdanovski, Dimitri

AU - Salman, Sameer Aman

AU - Letofsky-Papst, Ilse

AU - Pohler, Markus

AU - Czettl, Christoph

AU - Schneider, Jochen M.

AU - Mitterer, Christian

AU - Schalk, Nina

N1 - Publisher Copyright: © 2023 The Authors

PY - 2023/12

Y1 - 2023/12

N2 - In recent years, CrTa(B)N coatings deposited by physical vapor deposition have gained increasing interest due to their high hardness and good wear resistance. However, a detailed investigation of the microstructure of quaternary CrTaBN coatings both at ambient conditions and at elevated temperature is lacking in literature. Therefore, the present study provides an overview of the temperature-dependent phase formation and microstructure of a Cr 0.69Ta 0.20B 0.11N coating grown by cathodic arc deposition. The face-centered cubic Cr 1-x-yTa xB yN solid solution was found to be the only crystalline phase present in the as-deposited coating, with the B atoms exclusively forming B-N bonds. Both, atom probe tomography and transmission electron microscopy suggest that the B concentration is increased at the grain boundaries compared to within the grain. Annealing CrTaBN at 1000 °C provokes no change in the crystalline phase composition, but results in a reduction of the B content due to the formation of volatile B-containing compounds. In addition, B-metal bonds form upon annealing as a consequence of the CrN→Cr 2N+N decomposition. The here reported formation of B-N bonds in the as-deposited state and the annealing induced formation of B-metal bonds are consistent with density functional theory calculations of relaxed corresponding configurations as the energy differences between them are minute. The obtained findings provide a detailed insight into the phase formation of the given complex material system.

AB - In recent years, CrTa(B)N coatings deposited by physical vapor deposition have gained increasing interest due to their high hardness and good wear resistance. However, a detailed investigation of the microstructure of quaternary CrTaBN coatings both at ambient conditions and at elevated temperature is lacking in literature. Therefore, the present study provides an overview of the temperature-dependent phase formation and microstructure of a Cr 0.69Ta 0.20B 0.11N coating grown by cathodic arc deposition. The face-centered cubic Cr 1-x-yTa xB yN solid solution was found to be the only crystalline phase present in the as-deposited coating, with the B atoms exclusively forming B-N bonds. Both, atom probe tomography and transmission electron microscopy suggest that the B concentration is increased at the grain boundaries compared to within the grain. Annealing CrTaBN at 1000 °C provokes no change in the crystalline phase composition, but results in a reduction of the B content due to the formation of volatile B-containing compounds. In addition, B-metal bonds form upon annealing as a consequence of the CrN→Cr 2N+N decomposition. The here reported formation of B-N bonds in the as-deposited state and the annealing induced formation of B-metal bonds are consistent with density functional theory calculations of relaxed corresponding configurations as the energy differences between them are minute. The obtained findings provide a detailed insight into the phase formation of the given complex material system.

UR - http://www.scopus.com/inward/record.url?scp=85174684309&partnerID=8YFLogxK

U2 - 10.1016/j.mtla.2023.101931

DO - 10.1016/j.mtla.2023.101931

M3 - Article

VL - 32.2023

JO - Materialia

JF - Materialia

SN - 2589-1529

IS - December

M1 - 101931

ER -