Testing and Characterization of Near-Zero-Ablation Fibre-reinforced Ultra High Temperature Ceramics for Aerospace

Stefano Mungiguerra, Giuseppe D. Di Martino, Anselmo Cecere, Raffaele Savino, Diletta Scit

DOI Number XXX-YYY-ZZZ

Conference Number HiSST-2022-209

This paper presents the results of extensive test campaigns carried out in the framework of the
European C3HARME project, for the characterization of Ultra-High-Temperature Ceramic Composites
for near-zero ablation Thermal Protection Systems (TPS) and near-zero erosion rocket nozzles. Tests
were carried out in a supersonic arc-jet wind tunnel, where conditions typical of atmospheric re-entry
were reproduced, and in different configurations in a lab-scale hybrid rocket engine. Materials having
a ZrB2-SiC-based matrix and carbon fibre reinforcement showed an outstanding erosion resistance for
both applications. In the arc-jet environment, a spontaneous temperature jump of 4-500 K was
observed, which was attributed to a combination of increased catalytic activity and reduced thermal
conductivity upon oxidation. In the high-pressure environment of the propulsion tests, long-fibre
reinforcement demonstrated better mechanical resistance, which can be improved by proper tuning of
the densification process. The small-scale results paved the way for large scale qualification tests on a
complete TPS assembly and a medium-scale solid rocket nozzle.

Read the full paper >

Arc-jet testing, Hybrid rocket nozzle, Ultra-High-Temperature Ceramic Matrix Composites

In Categories: 1.Events, HiSST 2022, Materials and Structures

The paper above was part of proceedings of a CEAS event and as such the author has signed a publication agreement to have their paper published in the repository. In the case this paper is found somewhere else CEAS always links to the other source. CEAS takes great care in making the correct content available to the reader. If any mistakes are found in the listings please contact us directly at papers@aerospacerepository.org and we will correct the listing promptly. CEAS cannot be held liable either for mistakes in editorial or technical aspects, nor for omissions, nor for the correctness of the content. In particular, CEAS does not guarantee completeness or correctness of information contained in external websites which can be accessed via links from CEAS’s websites. Despite accurate research on the content of such linked external websites, CEAS cannot be held liable for their content. Only the content providers of such external sites are liable for their content. Should you notice any mistake in technical or editorial aspects of the CEAS site, please do not hesitate to inform us.