1. Driggers, G. W.: Baseline L5 Construction Station, in Space Manufacturing Facilities. Proceedings of the Princeton/AIAA/NASA Conference, May 7-9, 1975, Jerry Grey, ed., American Institute of Aeronautics and Astronautics, Inc., New York, N.Y. 10019.
  2. Levinson, Alfred A.; and Taylor, S. A.: Moon Rocks and Minerals. Pergamon Press, New York, 197 1.
  3. Geake, J. E.: The Physics of Lunar and Planetary Surfaces. Contemporary Physics, vol. 15, no. 2, 1974, pp. 121-158.
  4. Grodzka, G. P.: Process Chemistry of L5, in Space Manufacturing Facilities. Proceedings of the Princeton/AIAA/NASA Conference, May 7-9, 1975, Jerry Grey, ed., American Institute of Aeronautics and Astronautics, Inc., N.Y., 10019.
  5. Johnson, Richard D., ed.: Space Settlements, A Design Study. NASA-Ames Research Center, Scientific and Technical Information Office, National Aeronautics and Space Administration, Washington, D.C. 1977.
  6. Patterson, S. H.: Aluminum from Bauxite: Are There Alternatives? American Scientist, vol. 65, 1977, p. 345-351.
  7. Ampain, S. G.: Lime Soda Sinter Process, Correlation of Reaction Products with Extractability of Alun-driurn from Anorthsite. U.S. Bureau of Mines, RI 6933, April 1967.
  8. Grjotheim, K.; Khron, E.; Malinovsky, M.; Matisyovsky, K.; and Thonstand, J.: Aluminum Electrolysis, AluminumVerlag Gmbh-Dusseldor, 1977.
  9. Gitlesen, G.; Herstad, 0.; and Motzfeldt, K.: Selected Topics in High Temperature Chemistry. Forland, T., Grjotheirn, K., Motzfedlt, K., and Umes, S., eds., Oslo, 1966.
  10. Stroup, P. T.: Cartothermic Smelting of Aluminum. Trans. Met. Soc. AIME, vol. 230, no. 3, 1964, pp. 356-372.
  11. Striplin, M. M.; and Kelley, W. M.: AluminumSilicon Alloys by Electrothermal Reduction of Clay with Coke. Chem. Eng. Progress, vol. 43, no. 10, Trans. Am. Inst. Chem. Engrs., 1947, pp. 569-578.
  12. Peacy, J. G.; and Grimshaw, R. W.: Aluminum from the Rapid Quenching of CaTbothermic Aluminum Monochloride Vapors. Twelfth Annual CIM Conference of Metallurgists, Quebec City, August 2629, 1973.
  13. Mitterbiller, K.; and Friihwein, Walter: Aluminum, German Patents 604,597, 1934; 607,561, 1935.
  14. Yerkes, L. A.; and Fursman, 0. C.: Refining Crude Aluminum by Sulfide Reaction. U.S. Bureau of Mines, RI 5773, 1961.
  15. Hoekje, J. J.; and Kearley, A. A.: Titanium Dioxide From Ilmenite by Caustic Fusion. British Patent 846,468, Aug. 31, 1960.
  16. Daubenspeck, John M.; and Schmidt, Charles L.: Removing Iron From Titanium Ores With Chlorine in a Fluidized Bed. U.S. Patent 2,852,362, Sept. 16, 1958.
  17. Chertien, A.; and Wyss, R.: Compt. Rend, vol. 224, 1947,p.1642.
  18. Grjotheim, K.; Herstad, 0.; Skarbo, R.; and Toguri, J. M.: The Aluminum Reduction of Magnesium Compounds. III The Vapor Pressure of Magnesium Over the System AlMgSiO4 (olivine). Can. J. Chem., vol. 41, 1963, pp. 739-742.
  19. Grjotheim, K.; Johansen, K. H.; Motzfeldt, K.; and Rao, D. B.: Thermal Reduction of Olivine by Calcium Carbide and by Silicon in the Presence of Calcium Oxide. Can. Met. Quart., vol. 9, no. 2, 1970, pp. 389-394.
  20. Pidgeon, L. M.: New Methods for the Production of Magnesium. Trans Can. Inst. Min. Met., vol. 47, 1944, pp. 16-18.
  21. Pidgeon, L. M.; and King, J. A.: Vapor Pressure of Magnesium in the Thermal Reduction of Magnesium Oxide by Ferrosilicon. Disc. Faraday Soc., no. 4, 1948, pp. 197206.
  22. Wynnyckyi, J. R.; and Pidgeon, L. M.: Equilibria in the Silicothermic Reduction of Calcined Dolomite. Met. Trans., vol. 2, 197 1, pp. 979-986.
  23. Johansen, K. H.: Chemical Studies Concerning the Thermal Production of Magnesium. Thesis, The Technical University of Norway, 1967 (in Norwegian).
  24. Johnson, R. D.; and Holbrow, C., eds.: Space Settlement A Design Study. NASA SP-413, 1977, p. 53.
  25. Rosenberg, S. D.; Gryter, G. A.; and Miller, F. E.: Manufacture of Oxygen from Lunar Materials. Annals N.Y. Academy of Sciences, vol. 123, 1965, pp. 1106-1122.
  26. Cabrera, A. L.; Mahle, M. B.; Asunmaa, S. K.; and Arrhenius, G.: Formation of Water and Methane, Catalyzed by Lunar Dust. Abstract in Lunar Utilization, Conf. Mar. 16, 1976, Criswell, D. R., ed., 1976, pp. 96-105, Lunar Science Institute, Houston, 1976.
  27. Kudo, Tetsuichi; and Obayashi, Hidehito: Oxygen Ion Conduction of the Fluorite-Type Ce1-xLnx O2-x/2 (Ln Lanthanoid Element). J. Electro. Chem. Soc., vol. 122, no. 1, 1975, pp.142-147.
  28. Tuller, H. L.; and Nowick, A. S.: Doped Ceria as a Solid Oxide Electrolyte. J. Electrochem. Soc., vol. 122, no. 2, 1975, pp. 255-259.
  29. Weissbart, Joseph; Smart, Wilson; and Wydeven, Theodore: Oxygen Reclamation from Carbon Dioxide Using a Solid Oxide Electrolyte. Aerospace Medicine, vol. 40, no. 1, 1969, pp. 136-140.

Return to V-5

Table of Contents

Curator: Al Globus
NASA Responsible Official: Dr. Ruth Globus
If you find any errors on this page contact Al Globus.
Space Settlement hompage

This mirror of the NASA Ames Research Center Space Settlement web site is provided by:

National Space Society