Propulsion tests on ultra-high-temperature ceramic matrix composites for reusable rocket nozzles

材料科学 喷嘴 复合材料 陶瓷基复合材料 火箭发动机喷管 烧结 陶瓷 航天器推进 放电等离子烧结 散裂 推进 火箭(武器) 石墨 磨料 多孔性 制作 机械工程 航空航天工程 医学 物理 替代医学 病理 量子力学 中子 工程类
作者
Diletta Sciti,Antonio Vinci,Luca Zoli,Pietro Galizia,Simone Failla,Stefano Mungiguerra,Giuseppe D. Di Martino,Anselmo Cecere,Raffaele Savino
出处
期刊:Journal of Advanced Ceramics [Springer Science+Business Media]
卷期号:12 (7): 1345-1360 被引量:16
标识
DOI:10.26599/jac.2023.9220759
摘要

Ultra-high-temperature ceramic matrix composites (UHTCMCs) based on a ZrB 2 /SiC matrix have been investigated for the fabrication of reusable nozzles for propulsion.Three de Laval nozzle prototypes, obtained by sintering with either hot pressing (HP) or spark plasma sintering (SPS), were tested 2-3 times in a hybrid rocket motor for proving reusability.Sections were extracted after oxidation tests to study the microstructural changes and oxidative and thermomechanical stresses induced by the repeated tests.Compared to a reference graphite nozzle, no measurable erosion was observed for the UHTCMC-based nozzles.The oxidation mechanism consisted in the formation of a ZrO 2 intermediate layer, with a liquid silicon oxide (SiO 2 ) layer on the surface that was displaced by the action of the gas flux towards the divergent part of the nozzle, protecting it from further oxidation.Both specimens obtained by HP and SPS displayed similar performance, with very slight differences, which were attributed to small changes in porosity.These tests demonstrated the capability of complexshaped prototypes made of the developed UHTCMCs to survive repeated exposure to environments representative of a realistic space propulsion application, for overall operating time up to 30 s, without any failure nor measurable erosion, making a promising step towards the development of reusable rocket components.

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