Zirconium oxycarbides and oxycarbonitrides: A review

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Zirconium oxycarbides and oxycarbonitrides: A review. / Kucheryavaya, Anastasia; Lenčéš, Zoltán; Šajgalík, Pavol et al.
In: International journal of applied ceramic technology, Vol. 20.2023, No. 2, 30.08.2022, p. 541-562.

Research output: Contribution to journalArticleResearchpeer-review

Harvard

Kucheryavaya, A, Lenčéš, Z, Šajgalík, P & Harmuth, H 2022, 'Zirconium oxycarbides and oxycarbonitrides: A review', International journal of applied ceramic technology, vol. 20.2023, no. 2, pp. 541-562. https://doi.org/10.1111/ijac.14188

APA

Kucheryavaya, A., Lenčéš, Z., Šajgalík, P., & Harmuth, H. (2022). Zirconium oxycarbides and oxycarbonitrides: A review. International journal of applied ceramic technology, 20.2023(2), 541-562. Advance online publication. https://doi.org/10.1111/ijac.14188

Vancouver

Kucheryavaya A, Lenčéš Z, Šajgalík P, Harmuth H. Zirconium oxycarbides and oxycarbonitrides: A review. International journal of applied ceramic technology. 2022 Aug 30;20.2023(2):541-562. Epub 2022 Aug 30. doi: 10.1111/ijac.14188

Author

Kucheryavaya, Anastasia ; Lenčéš, Zoltán ; Šajgalík, Pavol et al. / Zirconium oxycarbides and oxycarbonitrides : A review. In: International journal of applied ceramic technology. 2022 ; Vol. 20.2023, No. 2. pp. 541-562.

Bibtex - Download

@article{db0225bb9b42412bbebd3eaf55efd3f5,
title = "Zirconium oxycarbides and oxycarbonitrides: A review",
abstract = "Zirconium oxycarbides and zirconium oxycarbonitrides are high-temperature ceramic materials with great potential for applications in advanced technologies due to their good refractoriness, mechanical and thermoelectric properties, and corrosion resistance. The properties of ZrCO(N) materials strongly depend on their composition. However, the stoichiometry of stable ZrCO(N) compounds, synthesis chemistry, and thermodynamics of the proceeding reactions require clarification. This review comprehensively interprets data for ZrCO and ZrCON ceramics, including studies that may not have been addressed in prior reviews. It summarizes the state-of-the-art synthesis procedures involving reactions between commonly used zirconia, zirconium carbide, and carbon black, along with other zirconium sources widely used in the last few decades for the preparation of ZrCO(N) materials. The controversial reaction mechanisms of carbothermal reduction of zirconia and the role of CO gas in this process are discussed. The properties of ZrCO and ZrCON and their possible applications are also summarized.",
author = "Anastasia Kucheryavaya and Zolt{\'a}n Len{\v c}{\'e}{\v s} and Pavol {\v S}ajgal{\'i}k and Harald Harmuth",
year = "2022",
month = aug,
day = "30",
doi = "10.1111/ijac.14188",
language = "English",
volume = "20.2023",
pages = "541--562",
journal = "International journal of applied ceramic technology",
issn = "1546-542X",
publisher = "Wiley-Blackwell, USA",
number = "2",

}

RIS (suitable for import to EndNote) - Download

TY - JOUR

T1 - Zirconium oxycarbides and oxycarbonitrides

T2 - A review

AU - Kucheryavaya, Anastasia

AU - Lenčéš, Zoltán

AU - Šajgalík, Pavol

AU - Harmuth, Harald

PY - 2022/8/30

Y1 - 2022/8/30

N2 - Zirconium oxycarbides and zirconium oxycarbonitrides are high-temperature ceramic materials with great potential for applications in advanced technologies due to their good refractoriness, mechanical and thermoelectric properties, and corrosion resistance. The properties of ZrCO(N) materials strongly depend on their composition. However, the stoichiometry of stable ZrCO(N) compounds, synthesis chemistry, and thermodynamics of the proceeding reactions require clarification. This review comprehensively interprets data for ZrCO and ZrCON ceramics, including studies that may not have been addressed in prior reviews. It summarizes the state-of-the-art synthesis procedures involving reactions between commonly used zirconia, zirconium carbide, and carbon black, along with other zirconium sources widely used in the last few decades for the preparation of ZrCO(N) materials. The controversial reaction mechanisms of carbothermal reduction of zirconia and the role of CO gas in this process are discussed. The properties of ZrCO and ZrCON and their possible applications are also summarized.

AB - Zirconium oxycarbides and zirconium oxycarbonitrides are high-temperature ceramic materials with great potential for applications in advanced technologies due to their good refractoriness, mechanical and thermoelectric properties, and corrosion resistance. The properties of ZrCO(N) materials strongly depend on their composition. However, the stoichiometry of stable ZrCO(N) compounds, synthesis chemistry, and thermodynamics of the proceeding reactions require clarification. This review comprehensively interprets data for ZrCO and ZrCON ceramics, including studies that may not have been addressed in prior reviews. It summarizes the state-of-the-art synthesis procedures involving reactions between commonly used zirconia, zirconium carbide, and carbon black, along with other zirconium sources widely used in the last few decades for the preparation of ZrCO(N) materials. The controversial reaction mechanisms of carbothermal reduction of zirconia and the role of CO gas in this process are discussed. The properties of ZrCO and ZrCON and their possible applications are also summarized.

U2 - 10.1111/ijac.14188

DO - 10.1111/ijac.14188

M3 - Article

VL - 20.2023

SP - 541

EP - 562

JO - International journal of applied ceramic technology

JF - International journal of applied ceramic technology

SN - 1546-542X

IS - 2

ER -

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