REFERENCES
  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.

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