An ultra-high-temperature ZrB2-SiC ceramic nose cone was tested in an arcjet plasma torch facility for 10 min at temperatures above 2000°C. The nose cone model was obtained from a hot-pressed billet via electrical discharge machining. The relevant portions of the models directly exposed to the hot stream were analyzed by scanning electron microscopy and energy-dispersive spectroscopy. The post test cross sectioning of the model showed a non negligible surface recession on the tip of the nose. Nonetheless, the material exhibited a promising potential to withstand severe reentry conditions with temperatures exceeding 2000°C in a single-use application. Spectral directional emissivity evaluations were performed on the fly during the test by means of thermography coupled with dual-color pyrometer. The numerical calculations, which simulated the chemical nonequilibrium flow around the model assuming a low catalytic surface behavior, are in good accordance with the experimental results
Plasma torch test of an Ultra-High-Temperature Ceramics nose cone demonstrator
Monteverde F;
2010
Abstract
An ultra-high-temperature ZrB2-SiC ceramic nose cone was tested in an arcjet plasma torch facility for 10 min at temperatures above 2000°C. The nose cone model was obtained from a hot-pressed billet via electrical discharge machining. The relevant portions of the models directly exposed to the hot stream were analyzed by scanning electron microscopy and energy-dispersive spectroscopy. The post test cross sectioning of the model showed a non negligible surface recession on the tip of the nose. Nonetheless, the material exhibited a promising potential to withstand severe reentry conditions with temperatures exceeding 2000°C in a single-use application. Spectral directional emissivity evaluations were performed on the fly during the test by means of thermography coupled with dual-color pyrometer. The numerical calculations, which simulated the chemical nonequilibrium flow around the model assuming a low catalytic surface behavior, are in good accordance with the experimental resultsI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.