Performance of cork-based thermal protection material P50 exposed to air plasma

Cork P50 thermal protection material was characterized under the Earth atmospheric entry conditions in the framework of the in-flight experiment QARMAN. A total of 25 P50 samples were exposed to air plasma ranging the chamber static pressure values of 1500, 4100, 6180, and 20,000 Pa and heat fluxes...

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Veröffentlicht in:	CEAS space journal 2022-01, Vol.14 (2), p.377-393
Hauptverfasser:	Sakraker Isil, Chazot Olivier, Carvalho, Joao Paulo
Format:	Artikel
Sprache:	eng
Schlagworte:	Air plasma Atmospheric entry Atmospheric models Blowing rate Boundary layers Heat flux Heat transfer Static pressure Thermal conductivity Thermal protection Thermogravimetric analysis Velocity gradient
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creator	Sakraker Isil Chazot Olivier Carvalho, Joao Paulo
description	Cork P50 thermal protection material was characterized under the Earth atmospheric entry conditions in the framework of the in-flight experiment QARMAN. A total of 25 P50 samples were exposed to air plasma ranging the chamber static pressure values of 1500, 4100, 6180, and 20,000 Pa and heat fluxes between 280 and 3250 kW/m2. The sample radius was also varied between 11 and 25 mm radius to investigate the effects of the stagnation line velocity gradient. The experimental results on heat flux, pressure, surface and in-depth temperatures, surface emissivity, swelling and recession rates, and computed boundary layer profiles as well as the mass blowing rates are presented. A material characterization data suite is also provided including thermogravimetric analysis, specific heat, and thermal conductivity. Overall, a wide range of experimental data of Cork P50 material in Earth atmospheric entry conditions is made available to modelers and engineers for improved material response models and heat shield design consolidation.
doi_str_mv	10.1007/s12567-021-00395-z
format	Article
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subjects	Air plasma Atmospheric entry Atmospheric models Blowing rate Boundary layers Heat flux Heat transfer Static pressure Thermal conductivity Thermal protection Thermogravimetric analysis Velocity gradient
title	Performance of cork-based thermal protection material P50 exposed to air plasma
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