NAS-9-15560 DRL-T-1451, NASA Johnson Space Center, GD/Convair Contractor Report. [15] Miller, Rene H. & Smith, David (1979) Extraterrestrial Processing and Manufacturing of Large Space Systems, CR-161293, NASA Marshall Space Flight Center, Huntsville, AL. [16] National Commission on Space (1986) Pioneering the Space Frontier, (New York, Bantam Books). [17] Ride, Sally K. (1987) Leadership and America’s Future in Space, Washington, DC, NASA Headquarters, 1987. [18] Maryniak, Gregg E. (1986) Living off the land—the use of resources in space for future civilian space operations, America Plans for Space (Washington, DC, National Defense University). [19] Beyond Earth’s Boundaries: human exploration of the solar system in the 21st century, 1988 Annual Report to the Administrator, Washington, DC, The Office of Exploration, NASA, 1989. [20] The President’s Space Policy and Commercial Space Initiative to Begin the Next Century, Press Release, Office of the Press Secretary, The White House, Washington, DC, 11 February 1988. [21] The Space Settlement Act of 1988, S.B209—an act, 100th Congress, 2nd Session, Washington, DC, October 1988. [22] Hawley, Todd B. & Diamandis, Peter H. (1989) The international lunar initiative: the 1988 design project of the International Space University, Space Manufacturing 7, January. [23] Space Research Associates (1985) Solar Power Satellite Build of Lunar Material (Princeton, NJ, Space Studies Institute). [24] Maryniak, Gregg, E. & Tillotson, Brian (1988) Design of solar power satellite for construction from lunar materials. Space Power, 7, p. 27. [25] Waldron, Robert D. (1985) Total separation and refinement of lunar soils by the HF acid leach process, Space Manufacturing: Engineering with Lunar and Asteroidal Materials, October, p. 132, (Washington, DC, AIAA). [26] Goldsworthy, W. Brandt (1988) Composite structures from lunar regolith, in: Wendell Mendell (Ed.) Lunar Bases & Space Activities in the 21st Century, proceedings of the conference held in Houston, Texas, April (Houston, TX, Lunar and Planetary Institute). [27] Gimarc, Alex J. (1985) Report on Space Shuttle External Tank Applications, Space Studies Institute, Princeton, NJ, December. [28] Maryniak, Gregg E. (1988) First steps to lunar manufacturing: results of the 1988 Space Studies Institute Lunar Systems Workshop, in: Wendell Mendell Lunar Bases & Space Activities in the 21st Century op. cit. [29] Keller, Rudolf (1987) Silicon, aluminum and oxygen from lunar ore, Space Manufacturing 6: nonterrestrial resources, biosciences, and space engineering, October, p. 360 (Washington, DC, AIAA). [30] Freeman, John W., Jr (1988) A polar orbit solar power satellite, Space Power, 7, p. 69. [31] Criswell, D.R. & Waldron, R.D. (1985) Lunar power systems overview, Space Manufacturing 5: engineering with lunar and asteroidal materials, October, p. 28 (New York, AIAA). [32] Sercel, Joel C. & Frisbee, Robert H. (1987) Beamed energy for spacecraft propulsion: conceptual status and development potential, Space Manufacturing 6: nonterrestrial resources, biosciences, and space engineering, October, p. 251 (Washington, DC, AIAA).
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