Computer Science
Scientific paper
Jan 1990
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1990aiaa.meets....w&link_type=abstract
AIAA, Aerospace Sciences Meeting, 28th, Reno, NV, Jan. 8-11, 1990. 25 p.
Computer Science
Aerocapture, Aerodynamic Heating, Mars Sample Return Missions, Spacecraft Trajectories, Thermal Protection, Unmanned Spacecraft, Ablation, Aerobraking, Composite Materials, Refractory Materials, Reynolds Number
Scientific paper
An investigation was made to determine the feasibility of using an aerobrake system for an unmanned mission to Mars and for a return vehicle to earth. A preliminary thermal protection system (TPS) is examined for two small nose radius, straight biconic vehicles aerocapturing at Mars. The TPS for these vehicles, entering at 6 km/s and 8 km/s, are shown to have an advantage over a propulsive burn velocity reduction for orbit insertion. The TPS for each vehicle consisted of an ablator in the region of high heating, and reusable insulation over the rest of the structure. It was determined that a reusable TPS could be used over 98 percent of the aeroshell structure. Also presented is the preliminary TPS design for an Apollo-shaped vehicle aerocapturing at earth. As with the biconics, this vehicle had an ablator in the region of high heating, and reusable insulation on the aft conic section. In contrast to the vehicles aerocapturing at Mars, the ablator is used on 63 percent of the vehicle's aeroshell structure.
Curry Donald M.
Pavlosky J. E.
Williams Scott D.
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