Design and preparation of multilayer TaC/HfC coating: Ablation behavior under oxyacetylene flame with different heat flux

Jian Zhang; Yulei Zhang; Xiaofei Zhu; Yanqin Fu; Ruicong Chen; Wenhan Gai

doi:10.1016/j.corsci.2022.110385

Design and preparation of multilayer TaC/HfC coating: Ablation behavior under oxyacetylene flame with different heat flux

Jian Zhang, Yulei Zhang, Xiaofei Zhu, Yanqin Fu, Ruicong Chen, Wenhan Gai

材料学院

Northwestern Polytechnical University Xian

科研成果: 期刊稿件 › 文章 › 同行评审

30 引用（Scopus）

摘要

The design of a new multilayer anti-ablation coating is inseparable from the performance assessment in multiple environments. This work investigates the effects of different ablation flux on the microstructure evolution and phase composition of multilayer TaC/HfC coating. The results show that the different temperature regions were generated on ablated coating surface, resulting in the formation of different oxidation products. At heat flux of 2.4 MW/m², the formation of dense Hf-Ta-O solid solution phase tightly adhered on substrate. As heat flux increased to 4.2 MW/m², a large amount of molten oxidation phase was produced in the central area, which caused secondary damage to the coating under the action of high-speed flame.

源语言	英语
文章编号	110385
期刊	Corrosion Science
卷	204
DOI	https://doi.org/10.1016/j.corsci.2022.110385
出版状态	已出版 - 1 8月 2022

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title = "Design and preparation of multilayer TaC/HfC coating: Ablation behavior under oxyacetylene flame with different heat flux",

abstract = "The design of a new multilayer anti-ablation coating is inseparable from the performance assessment in multiple environments. This work investigates the effects of different ablation flux on the microstructure evolution and phase composition of multilayer TaC/HfC coating. The results show that the different temperature regions were generated on ablated coating surface, resulting in the formation of different oxidation products. At heat flux of 2.4 MW/m2, the formation of dense Hf-Ta-O solid solution phase tightly adhered on substrate. As heat flux increased to 4.2 MW/m2, a large amount of molten oxidation phase was produced in the central area, which caused secondary damage to the coating under the action of high-speed flame.",

keywords = "Ablation resistances, C/C composites, Different heat flux, HfC and TaC coating, Multilayer",

author = "Jian Zhang and Yulei Zhang and Xiaofei Zhu and Yanqin Fu and Ruicong Chen and Wenhan Gai",

note = "Publisher Copyright: {\textcopyright} 2022 Elsevier Ltd",

year = "2022",

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doi = "10.1016/j.corsci.2022.110385",

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TY - JOUR

T1 - Design and preparation of multilayer TaC/HfC coating

T2 - Ablation behavior under oxyacetylene flame with different heat flux

AU - Zhang, Jian

AU - Zhang, Yulei

AU - Zhu, Xiaofei

AU - Fu, Yanqin

AU - Chen, Ruicong

AU - Gai, Wenhan

PY - 2022/8/1

Y1 - 2022/8/1

N2 - The design of a new multilayer anti-ablation coating is inseparable from the performance assessment in multiple environments. This work investigates the effects of different ablation flux on the microstructure evolution and phase composition of multilayer TaC/HfC coating. The results show that the different temperature regions were generated on ablated coating surface, resulting in the formation of different oxidation products. At heat flux of 2.4 MW/m2, the formation of dense Hf-Ta-O solid solution phase tightly adhered on substrate. As heat flux increased to 4.2 MW/m2, a large amount of molten oxidation phase was produced in the central area, which caused secondary damage to the coating under the action of high-speed flame.

AB - The design of a new multilayer anti-ablation coating is inseparable from the performance assessment in multiple environments. This work investigates the effects of different ablation flux on the microstructure evolution and phase composition of multilayer TaC/HfC coating. The results show that the different temperature regions were generated on ablated coating surface, resulting in the formation of different oxidation products. At heat flux of 2.4 MW/m2, the formation of dense Hf-Ta-O solid solution phase tightly adhered on substrate. As heat flux increased to 4.2 MW/m2, a large amount of molten oxidation phase was produced in the central area, which caused secondary damage to the coating under the action of high-speed flame.

KW - Ablation resistances

KW - C/C composites

KW - Different heat flux

KW - HfC and TaC coating

KW - Multilayer

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Design and preparation of multilayer TaC/HfC coating: Ablation behavior under oxyacetylene flame with different heat flux

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