| 2D-C/C-SiC复合材料强粒子冲蚀下的失效分析 |
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| 引用本文: | 王佩瑶,汤素芳,庞生洋,胡成龙,金剑锋.2D-C/C-SiC复合材料强粒子冲蚀下的失效分析[J].现代技术陶瓷,2016,37(5):325-331. |
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| 作者姓名: | 王佩瑶 汤素芳 庞生洋 胡成龙 金剑锋 |
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| 作者单位: | 东北大学 材料科学与工程学院材料各向异性与织构教育部重点实验室,沈阳110819,中国科学院 金属研究所,沈阳110016,中国科学院 金属研究所,沈阳110016,中国科学院 金属研究所,沈阳110016,东北大学 材料科学与工程学院材料各向异性与织构教育部重点实验室,沈阳110819 |
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| 基金项目: | 航天先进制造技术研究联合基金 (U1537204);国家自然科学基金 (51301035);中央财政基本科研业务费 (N151004004);辽宁省高等学校优秀人才支持基金 (LJQ2015037)。 |
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| 摘 要: | 本文采用化学气相渗透(CVI)工艺制备了2D针刺预制体增强的C/C-SiC复合材料,并对材料密度、力学性能以及强粒子冲蚀下的烧蚀机理和破坏机制进行了分析。结果表明,C/C-SiC复合材料在强粒子冲蚀下的破坏机制主要为机械冲蚀和颗粒侵蚀,其次是冲蚀过程中伴随的少量氧化。材料内层间孔、束间孔以及针刺孔的存在加剧了C/C-SiC复合材料破坏。研究发现,通过改变预制体结构来实现材料力学性能的均衡,并提高材料密度以减少材料的孔隙率将成为该使用环境下的材料设计原则
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| 关 键 词: | C/C-SiC复合材料 烧蚀 氧化 |
Failure Behavior of 2D-C/C-SiC Composites Under High-Energy Particle Erosion |
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| WANG Pei-Yao,TANG Su-Fang,PANG Sheng-Yang,HU Cheng-Long and JIN Jian-Feng.Failure Behavior of 2D-C/C-SiC Composites Under High-Energy Particle Erosion[J].Advanced Ceramics,2016,37(5):325-331. |
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| Authors: | WANG Pei-Yao TANG Su-Fang PANG Sheng-Yang HU Cheng-Long and JIN Jian-Feng |
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| Affiliation: | Key Laboratory for Anisotropy & Texture of Materials, Ministry of Education, Northeastern University, Shenyang 110819,China,Institute of Metal Research, Chinese Academy of Sciences, Shenyang 110016, China,Institute of Metal Research, Chinese Academy of Sciences, Shenyang 110016, China,Institute of Metal Research, Chinese Academy of Sciences, Shenyang 110016, China and Key Laboratory for Anisotropy & Texture of Materials, Ministry of Education, Northeastern University, Shenyang 110819,China |
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| Abstract: | A 2D-C/C-SiC composite enhanced by needle-punching preform was densified by chemical vapor infiltration (CVI) technique, and its density, mechanical properties and the ablation and failure mechanisms under a high-energy particle erosion test were investigated in this work. The results show that the failure behavior of the composite under high-energy particle erosion were mainly controlled by the mechanical scour and the impacted particles eroding, and also controlled by the slight oxidation of the composite. The inter-layer, inter-bundle and needling pores in the C/C-SiC composite will aggravate the failure of the composite. It suggested that homogenizing the mechanical properties in different areas of the composite by changing the preform structure and reducing the porosity by increasing the material density would be two key design principles for the C/C-SiC composite operating in the high-energy particle erosion condition. |
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| Keywords: | C/C-SiC composite Ablation Oxidation |
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