Ablation performance of Ta0.8Hf0.2C-SiC coating fabricated via pack cementation for carbon/carbon composites

Shao Pu Liu; Zhuang Ma; Yanbo Liu; Xinchun Tian; Shizhen Zhu; Ling Liu; Siyuan He; Mu Guangyi

doi:10.1016/j.jeurceramsoc.2024.117064

Ablation performance of Ta_0.8Hf_0.2C-SiC coating fabricated via pack cementation for carbon/carbon composites

Shao Pu Liu, Zhuang Ma^*, Yanbo Liu, Xinchun Tian, Shizhen Zhu, Ling Liu, Siyuan He, Mu Guangyi

^*Corresponding author for this work

School of Material Science and Engineering

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

Ta_0.8Hf_0.2C solid solution combines the excellent oxidation and ablation resistance of TaC and HfC, making it ideal for ultra-high temperature applications. Herein, a Ta_0.8Hf_0.2C-SiC coating was fabricated on carbon/carbon (C/C) composites via pack cementation, with the volume fraction of Ta_0.8Hf_0.2C being only 0.57 %. The coating provided over 350 s of thermal protection at 2.4 MW/m² (2150 ℃) and 170 s at 6.2 MW/m² (2400 ℃) for C/C composites, demonstrating exceptional ablation resistance with low addition of Ta_0.8Hf_0.2C. The mass and linear ablation rates were only 0.5110 mg/s and 0.0277 μm/s at 2150 ℃, and 0.3947 mg/s and 0.6229 μm/s at 2400 ℃, respectively. The solid solution structure of Ta_0.8Hf_0.2C ensures uniform atomic-scale distribution of Ta and Hf, which facilitaes the in-situ pinning of liquid-phase Ta₂O₅ by HfO₂/Hf₆Ta₂O₁₇ particles.

Original language	English
Article number	117064
Journal	Journal of the European Ceramic Society
Volume	45
Issue number	4
DOIs	https://doi.org/10.1016/j.jeurceramsoc.2024.117064
Publication status	Published - Apr 2025

Keywords

Ablation performance
Carbon/carbon composites
Pack cementation
TaHfC-SiC coating

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10.1016/j.jeurceramsoc.2024.117064

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title = "Ablation performance of Ta0.8Hf0.2C-SiC coating fabricated via pack cementation for carbon/carbon composites",

abstract = "Ta0.8Hf0.2C solid solution combines the excellent oxidation and ablation resistance of TaC and HfC, making it ideal for ultra-high temperature applications. Herein, a Ta0.8Hf0.2C-SiC coating was fabricated on carbon/carbon (C/C) composites via pack cementation, with the volume fraction of Ta0.8Hf0.2C being only 0.57 %. The coating provided over 350 s of thermal protection at 2.4 MW/m2 (2150 ℃) and 170 s at 6.2 MW/m2 (2400 ℃) for C/C composites, demonstrating exceptional ablation resistance with low addition of Ta0.8Hf0.2C. The mass and linear ablation rates were only 0.5110 mg/s and 0.0277 μm/s at 2150 ℃, and 0.3947 mg/s and 0.6229 μm/s at 2400 ℃, respectively. The solid solution structure of Ta0.8Hf0.2C ensures uniform atomic-scale distribution of Ta and Hf, which facilitaes the in-situ pinning of liquid-phase Ta2O5 by HfO2/Hf6Ta2O17 particles.",

keywords = "Ablation performance, Carbon/carbon composites, Pack cementation, TaHfC-SiC coating",

author = "Liu, {Shao Pu} and Zhuang Ma and Yanbo Liu and Xinchun Tian and Shizhen Zhu and Ling Liu and Siyuan He and Mu Guangyi",

note = "Publisher Copyright: {\textcopyright} 2024",

year = "2025",

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doi = "10.1016/j.jeurceramsoc.2024.117064",

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T1 - Ablation performance of Ta0.8Hf0.2C-SiC coating fabricated via pack cementation for carbon/carbon composites

AU - Liu, Shao Pu

AU - Ma, Zhuang

AU - Liu, Yanbo

AU - Tian, Xinchun

AU - Zhu, Shizhen

AU - Liu, Ling

AU - He, Siyuan

AU - Guangyi, Mu

PY - 2025/4

Y1 - 2025/4

N2 - Ta0.8Hf0.2C solid solution combines the excellent oxidation and ablation resistance of TaC and HfC, making it ideal for ultra-high temperature applications. Herein, a Ta0.8Hf0.2C-SiC coating was fabricated on carbon/carbon (C/C) composites via pack cementation, with the volume fraction of Ta0.8Hf0.2C being only 0.57 %. The coating provided over 350 s of thermal protection at 2.4 MW/m2 (2150 ℃) and 170 s at 6.2 MW/m2 (2400 ℃) for C/C composites, demonstrating exceptional ablation resistance with low addition of Ta0.8Hf0.2C. The mass and linear ablation rates were only 0.5110 mg/s and 0.0277 μm/s at 2150 ℃, and 0.3947 mg/s and 0.6229 μm/s at 2400 ℃, respectively. The solid solution structure of Ta0.8Hf0.2C ensures uniform atomic-scale distribution of Ta and Hf, which facilitaes the in-situ pinning of liquid-phase Ta2O5 by HfO2/Hf6Ta2O17 particles.

AB - Ta0.8Hf0.2C solid solution combines the excellent oxidation and ablation resistance of TaC and HfC, making it ideal for ultra-high temperature applications. Herein, a Ta0.8Hf0.2C-SiC coating was fabricated on carbon/carbon (C/C) composites via pack cementation, with the volume fraction of Ta0.8Hf0.2C being only 0.57 %. The coating provided over 350 s of thermal protection at 2.4 MW/m2 (2150 ℃) and 170 s at 6.2 MW/m2 (2400 ℃) for C/C composites, demonstrating exceptional ablation resistance with low addition of Ta0.8Hf0.2C. The mass and linear ablation rates were only 0.5110 mg/s and 0.0277 μm/s at 2150 ℃, and 0.3947 mg/s and 0.6229 μm/s at 2400 ℃, respectively. The solid solution structure of Ta0.8Hf0.2C ensures uniform atomic-scale distribution of Ta and Hf, which facilitaes the in-situ pinning of liquid-phase Ta2O5 by HfO2/Hf6Ta2O17 particles.

KW - Ablation performance

KW - Carbon/carbon composites

KW - Pack cementation

KW - TaHfC-SiC coating

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ER -

Ablation performance of Ta_0.8Hf_0.2C-SiC coating fabricated via pack cementation for carbon/carbon composites

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