Computer Science – Performance
Scientific paper
Feb 1993
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1993stms.conf...93w&link_type=abstract
In NASA. Langley Research Center, Space Transportation Materials and Structures Technology Workshop. Volume 2: Proceedings p 93-
Computer Science
Performance
Aerobraking, Composite Materials, Life Support Systems, Lunar Orbits, Mission Planning, Space Transportation, Spacecraft, Transfer Orbits, Composite Structures, Flight Paths, Mars Surface, Propulsion System Configurations, Thermal Protection, Viking Lander Spacecraft
Scientific paper
Earth-to-Mars distances vary from 60 to 400 million kilometers over a 14-year cycle. This complicates Mars mission design as a function of calendar time. Stay times at Mars are also strongly driven by opportunities for a return flight path which are within the limits of delta-V associated with practical space vehicles. The biggest difference between Mars and lunar transfer missions is mission time, which grows from a few days for the moon, to as much as a few hundred days for Mars missions. As a result, modules for similarly sized crews must be much larger for Mars missions that for transfer to lunar orbit. Technology challenges for one Mars mission scenario analyzed by Boeing include aerobrakes, propulsion, and life support systems. Mission performance is very sensitive to aerobrake weight fraction and, as a result, there is an incentive to use high performance materials such as advanced composites and thermal protection systems. Lander aerobrake would be used twice (for both planetary capture and descent to the Mars surface), and it would need to survive temperatures up to 3500 degrees.
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