Two classes of material processing scenarios will feature prominently in future interplanetary exploration: in situ production using locally available materials in lunar or planetary landings and high performance structural materials which carve out a set of properties for uniquely hostile space environments. To be competitive, high performance materials must typically offer orders of magnitude improvements in thermal conductivity or insulation, deliver high strength-to-weight ratios, or provide superior durability (low corrosion and/or ablative character, e.g., in heat shields). The space-related environmental parameters of high radiation flux, low weight, and superior reliability limits many typical aerospace materials to a short list comprising high performance alloys, nanocomposites and thin-layer metal laminates (Al-Cu, Al-Ag) with typical dimensions less than the Frank-Reed-type (e.g., packing flaws or 'weak' points crystallographically) dislocation source. Extremely light weight carbon-carbon composites and carbon aerogels will be presented as novel examples which define broadened material parameters, particularly owing to their extreme thermal insulation (R-32-64) and low densities (<0.01 g/cm3) approaching that of air itself. Even with these low-weight payload additions, rocket thrust limits and transport costs will always place a premium on assembling as much structural and life support resources upon interplanetary, lunar, or asteroid arrival. As an example, for in situ lunar glass manufacture, solar furnaces reaching 1700 degree C for pure silica glass manufacture in situ are compared with sol-gel technology and acid-leached ultrapure (<0.1% FeO) silica aerogel precursors.
High performance materials applications to Moon/Mars missions and bases
1998
11 Seiten, 25 Quellen
Aufsatz (Konferenz)
Englisch
Optimal Free-Return Trajectories for Moon Missions and Mars Missions
Online Contents | 2000
|Optimal Free-Return Trajectories for Moon Missions and Mars Missions
Online Contents | 2000
|Optimal Free-Return Trajectories for Moon Missions and Mars Missions
British Library Conference Proceedings | 2000
|Optimal Free-Return Trajectories for Moon Missions and Mars Missions
British Library Conference Proceedings | 2000
|Optimal Free-Return Trajectories for Moon Missions and Mars Missions
Springer Verlag | 2000
|