Comparing ablation properties of NbC and NbC-25 mol.% ZrC coating on SiC-coated C/C composites

Ruixiang He; Kezhi Li; Shengyue Gu; Qian Liu

doi:10.1016/j.ceramint.2019.11.197

Comparing ablation properties of NbC and NbC-25 mol.% ZrC coating on SiC-coated C/C composites

Ruixiang He, Kezhi Li, Shengyue Gu, Qian Liu

材料学院

Northwestern Polytechnical University Xian

科研成果: 期刊稿件 › 文章 › 同行评审

22 引用（Scopus）

摘要

In this work, ablation properties of NbC and NbC-25 mol.% ZrC coating, deposited on SiC-coated C/C composites by supersonic atmospheric plasma spraying, were tested by an oxyacetylene torch. Results showed that, for NbC coating, an unexpected smooth liquid film mostly composed of niobium suboxides (such as NbO₂ and NbO), rather than pure Nb₂O₅, generated during ablation for 45 s. Mechanical erosion resulted from the molten SiO₂, and the relatively low viscosity of the outer oxide layer owing to insufficiently high melting point of niobium suboxides were the key factors for the failure mechanism of NbC coating. While NbC–ZrC coating abated for 90 s has a 97.49 and 66.53% decrease of linear and mass ablation rate relative to NbC coating ablated for 45 s, since ZrO₂ hindering the evaporation of SiO₂ droplets, and more thermal-stable Nb–O–Zr liquid film endow (NbC–ZrC)/SiC/C/C composites with an outstanding anti-ablation property.

源语言	英语
页（从-至）	7055-7064
页数	10
期刊	Ceramics International
卷	46
期	6
DOI	https://doi.org/10.1016/j.ceramint.2019.11.197
出版状态	已出版 - 15 4月 2020

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title = "Comparing ablation properties of NbC and NbC-25 mol.% ZrC coating on SiC-coated C/C composites",

abstract = "In this work, ablation properties of NbC and NbC-25 mol.% ZrC coating, deposited on SiC-coated C/C composites by supersonic atmospheric plasma spraying, were tested by an oxyacetylene torch. Results showed that, for NbC coating, an unexpected smooth liquid film mostly composed of niobium suboxides (such as NbO2 and NbO), rather than pure Nb2O5, generated during ablation for 45 s. Mechanical erosion resulted from the molten SiO2, and the relatively low viscosity of the outer oxide layer owing to insufficiently high melting point of niobium suboxides were the key factors for the failure mechanism of NbC coating. While NbC–ZrC coating abated for 90 s has a 97.49 and 66.53% decrease of linear and mass ablation rate relative to NbC coating ablated for 45 s, since ZrO2 hindering the evaporation of SiO2 droplets, and more thermal-stable Nb–O–Zr liquid film endow (NbC–ZrC)/SiC/C/C composites with an outstanding anti-ablation property.",

keywords = "Ablation, Carbon/carbon composites, NbC coating, NbC-25 mol.% ZrC coating, Supersonic atmospheric plasma spraying",

author = "Ruixiang He and Kezhi Li and Shengyue Gu and Qian Liu",

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AU - He, Ruixiang

AU - Li, Kezhi

AU - Gu, Shengyue

AU - Liu, Qian

PY - 2020/4/15

Y1 - 2020/4/15

N2 - In this work, ablation properties of NbC and NbC-25 mol.% ZrC coating, deposited on SiC-coated C/C composites by supersonic atmospheric plasma spraying, were tested by an oxyacetylene torch. Results showed that, for NbC coating, an unexpected smooth liquid film mostly composed of niobium suboxides (such as NbO2 and NbO), rather than pure Nb2O5, generated during ablation for 45 s. Mechanical erosion resulted from the molten SiO2, and the relatively low viscosity of the outer oxide layer owing to insufficiently high melting point of niobium suboxides were the key factors for the failure mechanism of NbC coating. While NbC–ZrC coating abated for 90 s has a 97.49 and 66.53% decrease of linear and mass ablation rate relative to NbC coating ablated for 45 s, since ZrO2 hindering the evaporation of SiO2 droplets, and more thermal-stable Nb–O–Zr liquid film endow (NbC–ZrC)/SiC/C/C composites with an outstanding anti-ablation property.

AB - In this work, ablation properties of NbC and NbC-25 mol.% ZrC coating, deposited on SiC-coated C/C composites by supersonic atmospheric plasma spraying, were tested by an oxyacetylene torch. Results showed that, for NbC coating, an unexpected smooth liquid film mostly composed of niobium suboxides (such as NbO2 and NbO), rather than pure Nb2O5, generated during ablation for 45 s. Mechanical erosion resulted from the molten SiO2, and the relatively low viscosity of the outer oxide layer owing to insufficiently high melting point of niobium suboxides were the key factors for the failure mechanism of NbC coating. While NbC–ZrC coating abated for 90 s has a 97.49 and 66.53% decrease of linear and mass ablation rate relative to NbC coating ablated for 45 s, since ZrO2 hindering the evaporation of SiO2 droplets, and more thermal-stable Nb–O–Zr liquid film endow (NbC–ZrC)/SiC/C/C composites with an outstanding anti-ablation property.

KW - Ablation

KW - Carbon/carbon composites

KW - NbC coating

KW - NbC-25 mol.% ZrC coating

KW - Supersonic atmospheric plasma spraying

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Comparing ablation properties of NbC and NbC-25 mol.% ZrC coating on SiC-coated C/C composites

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