冲压发动机针刺C/SiC喷管的烧蚀行为研究

李志永; 郑日恒; 李立翰; 刘小瀛; 陈 超; 陈 博; 陈静敏

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冲压发动机针刺C/SiC喷管的烧蚀行为研究
李志永¹,郑日恒¹,李立翰¹,刘小瀛²,陈超²,陈博²,陈静敏¹
(1.中国航天科工集团三十一研究所高超声速冲压发动机技术重点实验室,北京 100074;2.西北工业大学超高温结构复合材料重点实验室,陕西西安 710072)

摘要:

为探索C/SiC喷管在固液冲压发动机上应用的可行性以及固液冲压发动机工作环境下的烧蚀行为,对冲压发动机针刺C/SiC复合材料喷管进行了研究。研究结果表明:针刺C/SiC复合材料喷管能够适应冲压发动机富氧、长时间的工作环境；C/SiC复合材料喷管入口段和扩张段存在轻微的氧化,喉部以热化学烧蚀为主,收敛段以热化学烧蚀和热机械侵蚀为主；收敛段为整个喷管的薄弱环节,应根据不同的工作条件和烧蚀机理,对C/SiC喷管的厚度进行分别设计。 

关键词: 冲压发动机喷管烧蚀行为 

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A Study on Ablation Behavior of Needled C/SiC Composite Nozzle for Ramjet

LI Zhi-yong¹, ZHENG Ri-heng¹, LI Li-han¹, Liu Xiao-ying², CHEN Chao², CHEN Bo², CHEN Jing-min²

(1.Science and Technology on Scramjet Laboratory,The 31st Research Institute of CASIC,Beijing 100074,China;2.Science and Technology on Thermostructural Composite Materials Laboratory, Northwestern Polytechnical University, Xi’an 710072,China)

Abstract:

In order to explore the feasibility and ablation behavior of the three-dimensional needled C/SiC in the hybrid rocket ramjet, the C/SiC composite nozzle was experimentally investigated. The results show that the three-dimensional needled C/SiC composite nozzle can work safely under the oxygen-rich combustion environment of the ramjet for long test duration. No obvious oxidation is observed in the entrance and divergent section of the nozzle. Thermochemical ablation is the dominated ablation mechanism for the nozzle throat. Thermochemical ablation and thermal-mechanical erosion were suggested as ablation mechanism for the convergent section of the nozzle. Convergent section is the weakest part of the nozzle. Hence for the safety and reliability of the nozzle, the thickness of the three-dimensional needled C/SiC composite in different positions of the nozzle should be optimally designed for different working conditions and ablation mechanisms. 

Key words: Ramjet Nozzle Ablation behavior