Fabrication of low-density carbon-bonded carbon fiber composites with an Hf-based coating for high temperature applications

Xu Lin; Yang Wenbing; Fan Zhen; Li Xingchao; Li Wei; Song Yongzhong; Feng Zhihai; Zhang Dahai

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Fabrication of low-density carbon-bonded carbon fiber composites with an Hf-based coating for high temperature applications

机译：用HF基涂层制备低密度碳键合碳纤维复合材料，用于高温应用

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A novel Hf-based anti-oxidation coating has been prepared on the surface of low-density carbon-bonded carbon fiber composites (CBCFs). The coating exhibits a gradient transition structure, with mainly HfB2, Hf2Si and SiC ceramics. Oxyacetylene torch testing has been utilized to evaluate the ablation resistance under the condition ranging from 1.6 MW m(-2) to 2.2 MW m(-2) for 300 s. The experimental results show that the as-prepared Hf-based coating can effectively protect CBCFs under high-temperature oxidation conditions. The surface maximum temperature can reach 1616-2037 degrees C, and the mass ablation rates vary from -3.5 x 10(-5) g s(-1) cm(-2) to 1.5 x 10(-5) g s(-1) cm(-2). The formation of a dense SiO2 glass layer embedded with HfO2 grains or particle accumulation in the HfO2 layer is responsible for the good ablation resistance.

机译：已经在低密度碳键合碳纤维复合材料（CBCFS）的表面上制备了一种新的基于HF的抗氧化涂层。涂层具有梯度过渡结构，主要具有HFB2，HF2SI和SiC陶瓷。已经利用氧基乙炔炬试验来评估从1.6mW m（-2）至2.2 mw m（-2）的条件下的消融抗性。实验结果表明，如制备的HF基涂层可以在高温氧化条件下有效保护CBCF。表面最大温度可达到1616-2037℃，质量消融率在-3.5×10（-5）gs（-1）cm（-2）中变化至1.5×10（-5）gs（-1） cm（-2）。嵌入HFO2晶粒或HFO2层中颗粒积聚的致密SiO2玻璃层的形成负责良好的消融抗性。

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来源
《RSC Advances》 |2018年第34期|共10页
作者
Xu Lin; Yang Wenbing; Fan Zhen; Li Xingchao; Li Wei; Song Yongzhong; Feng Zhihai; Zhang Dahai;
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作者单位

Aerosp Res Inst Mat &

Technol Sci &

Technol Adv Funct Composite Lab Beijing 100076 Peoples R China;

Aerosp Res Inst Mat &

Technol Sci &

Technol Adv Funct Composite Lab Beijing 100076 Peoples R China;

Aerosp Res Inst Mat &

Technol Sci &

Technol Adv Funct Composite Lab Beijing 100076 Peoples R China;

Aerosp Res Inst Mat &

Technol Sci &

Technol Adv Funct Composite Lab Beijing 100076 Peoples R China;

Aerosp Res Inst Mat &

Technol Sci &

Technol Adv Funct Composite Lab Beijing 100076 Peoples R China;

Aerosp Res Inst Mat &

Technol Sci &

Technol Adv Funct Composite Lab Beijing 100076 Peoples R China;

Aerosp Res Inst Mat &

Technol Sci &

Technol Adv Funct Composite Lab Beijing 100076 Peoples R China;

Aerosp Res Inst Mat &

Technol Sci &

Technol Adv Funct Composite Lab Beijing 100076 Peoples R China;

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正文语种 eng
中图分类化学;
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1. Fabrication of low-density carbon-bonded carbon fiber composites with an Hf-based coating for high temperature applications [J] . Xu Lin, Yang Wenbing, Fan Zhen, RSC Advances . 2018,第34期

机译：用HF基涂层制备低密度碳键合碳纤维复合材料，用于高温应用
2. Fabrication and ultra-high-temperature properties of lightweight carbon-bonded carbon fiber composites [J] . Chen Yanfei, Zhao Yunong, Liu Debao, CERAMICS INTERNATIONAL . 2019,第17aPta1期

机译：轻质碳键合碳纤维复合材料的制造和超高温性能
3. Ablation behavior and mechanism of double-layer ZrB2-based ceramic coating for lightweight carbon-bonded carbon fiber composites under oxyacetylene flame at elevate temperature [J] . Xu Baosheng, He Rujie, Hong Changqing, Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2017,第期

机译：氧乙烯火焰在升高温度下轻质碳粘合碳纤维复合材料的双层ZRB2陶瓷涂层的消融行为及机理
4. FABRICATION OF CARBON FIBER REINFORCED CERAMIC MATRIX COMPOSITES POTENTIAL FOR ULTRA-HIGH-TEMPERATURE APPLICATIONS [C] . S. M. Dong, Z. Wang, Y. S. Ding International Conference on Advanced Ceramics and Composites . 2010

机译：碳纤维增强陶瓷基质复合材料对超高温应用的施加
5. Thermal oxidation induced degradation of carbon fiber reinforced composites and carbon nanotube sheet enhanced fiber/matrix interface for high temperature aerospace structural applications. [D] . Haque, Mohammad Hamidul. 2012

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6. Carbon Fiber/Epoxy Composite Ring-disk Electrode: Fabrication Characterization and Application to Electrochemical Detection in Capillary High Performance Liquid Chromatography [O] . Xiaomi Xu, Stephen G. Weber -1

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Fabrication of low-density carbon-bonded carbon fiber composites with an Hf-based coating for high temperature applications

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