Ablation behavior of a three-dimensional C/C-HfC composite prepared by a precursor infiltration and pyrolysis method
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摘要: 通过化学气相渗透法和先驱体浸渍裂解法相结合制备出密度为1.95 g/cm3的三维C/C-HfC复合材料,碳化铪陶瓷相均匀地填充于材料内部。探究了先驱体的物相转化过程和材料的耐烧蚀性能。结果表明:复合材料经等离子体烧蚀装置测试120 s后,样品的质量烧蚀率和线烧蚀率分别为:0.001 5 g/s和0.002 4 mm/s。通过先驱体浸渍裂解工艺引入到基体内的碳化铪陶瓷相在烧蚀过程中与氧化性气体生成的二氧化铪固体颗粒起既能起到一定的热障作用,也能作为抑制氧化性气体扩散的阻挡层,从而提高了材料的耐烧蚀性能。同时,氧化产物的生成和一氧化碳气体的挥发将消耗烧蚀区域内一部分热量,进而降低材料表面的温度,进一步提高材料的抗烧蚀能力。
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关键词:
- 三维C/C-HfC复合材料 /
- 先驱体 /
- 耐烧蚀性能
Abstract: A three-dimensional C/C-HfC composite with a density of 1.95 g/cm3 was fabricated by chemical vapor infiltration of carbon into a 3D woven carbon fiber felt to a density of 1.45 g/cm3 followed by vacuum impregnation and pyrolysis of a solution containing the HfC precursor.Results indicate that HfC particles are uniformly dispersed around the pyrocarbon.The 3D C/C-HfC composite exhibits a good ablation resistance at 2573 K.The mass and linear ablation rates after ablation for 120 s are 0.001 5 g/s and 0.002 4 mm/s,respectively.The resistance to ablation is attributed to the introduction of HfC into the C/C composite.The tree-coral-like HfO2 particles formed during the ablation act as thermal and oxygen diffusion barriers,protecting the composite from further ablation.Also,the oxidation of HfC and the volatilization of the ablation product (CO) absorb a large amount of heat from the composite.-
Key words:
- Three-dimensional C/C-HfC composites /
- Precursor /
- Ablation properties
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Zaman W, Li K Z, Ikram S, et al. Morphology thermal response and anti-ablation performance of 3D-four directional pitch-based carbon/carbon composites[J]. Corros Sci, 2012, 61:134-142. 付前刚, 张佳平, 李贺军. 抗烧蚀C/C复合材料研究进展[J]. 新型炭材料, 2015, 30(2):97-105. (FU Qian-gang, ZHANG Jia-ping, LI He-jun. Advances in the ablation resistance of C/C composites[J]. New Carbon Materials, 2015, 30(2):97-105.) Siron O, Lamon J. Damage and failure mechanisms of a 3D carbon/carbon composite under uniaxial tensile and shear loads[J]. Acta Mater, 1998, 46(18):636-643. Wang Y J. Ablation behavior of a TaC coating on SiC coated C/C composites at different temperatures[J]. Ceram Int, 2013, 39(1):359-365. Yang X, Huang Q Z, Xue L, et al. Resistance to oxidation and ablation of SiC coating on graphite prepared by chemical vapor reaction[J]. Corros Sci, 2013, 75:16-27. 邱海鹏, 陈明伟, 李秀倩, 等. CVI-PIP工艺制备炭纤维增强炭/陶复合材料及其性能[J]. 新型炭材料, 2015, 29(6):467-472. (QIU Hai-peng, CHEN Ming-wei, LI Xiu-qian, et al. Preparation and properties of carbon fiber-reinforced carbon and ceramic composites through a combination of chemical vapor infiltration and polymer impregnation pyrolysis[J]. New Carbon Materials, 2014, 29(6):467-472.) Chen S A, Zhang C R, Hu H F, et al. Mechanism of ablation of 3D C/ZrC-SiC composites under an oxyacetylene flame[J]. Corros Sci, 2013, 68:168-175. Li CY, Li K Z, Li H J, et al. Mechanical and thermophysical properties of carbon/carbon composites with hafnium carbide[J]. Ceram Int, 2013, 39:6769-6776. 李贺军, 陶珺, 姚栋嘉, 等. 预炭层对ZrC浸渍C/C复合材料微观结构和力学性能的影响[J]. 新型炭材料, 2015, 30(4):372-377. (LI He-jun, TAO Jun, YAO Dong-jia, et al. Influence of a pre-coated pyrocarbon layer on the microstructure and mechanical properties of ZrC-doped C/C composites[J]. New Carbon Materials, 2015, 30(4):372-377.) Shen X T, Li K Z, Li H J, et al. The effect of zirconium carbide on ablation of carbon/carbon composites under an oxyacetylene flame[J]. Corros Sci, 2011, 53:105-112. Zhao D, Zhang C R, Hu H F, et al. Preparation and characterization of three-dimensional carbon fiber reinforced zirconium carbide composite by precursor infiltration and pyrolysis process[J]. Ceram Int, 2011, 37(7):2089-2093. Lakiza S M, Tyschenko J S, Lopato L M. Phase diagram of the Al2O3-HfO2 -Y2O3 system[J]. J Eur Ceram Soc, 2011, 31:1285-1291. Liu C X, Xue L, Huang Q Z, et al. Microstructure and ablation behavior of SiC coated C/C-SiC-ZrC composites prepared by a hybrid infiltration process[J]. Carbon, 2013, 65:196-205. Li Z Q, Li H J, Li W, et al. Preparation and ablation properties of ZrC-SiC coating for carbon/carbon composites by solid phase infiltration[J]. Appl Surf Sci, 2011, 258:565-571. Zhao D, Zhang C R, Hu H F, et al. Ablation behavior and mechanism of 3D C/ZrC composite in oxyacetylene torch environment[J]. Compos Sci Technol, 2011, 71:1392-1396. Wang Y L, Xiong X, Chen Z K, et al. Ablation behavior of HfC protective coatings for carbon/carbon composites in an oxyacetylene combustion flame[J]. Corros Sci, 2011, 65:549-555. Bargeron C B,Benson R C. X-ray microanalysis of a hafnium carbide film oxidized at high temperature[J]. Surf Coat Technol, 1988, 36:111-115. Sayir A. Carbon fiber reinforced hafnium carbide composites[J]. J Mater Sci, 2004, 39:5995-6003. Lu J H, Hao K, Liu L, et al. Ablation resistance of SiC-HfC-ZrC multiphase modified carbon/carbon composites[J]. Corros Sci, 2016, 103:1-9. -
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