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Sintering

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• Iron -- Metallurgy
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• Effect of additives on sintering of silicon nitride-alumina-aluminum nitride compositions (U.S. Dept. of the Interior, Bureau of Mines, 1981), by B. W. Jong and H. Heystek (page images at HathiTrust)
• Effect of additives on sintering of silicon nitride-alumina compositions (U.S. Dept. of the Interior, Bureau of Mines, 1980), by B. W. Jong (page images at HathiTrust)
• Soda sinter process for treating low-grade titaniferous ores (U.S. Dept. of the Interior, Bureau of Mines, 1952), by Robert T. MacMillan, John E. Conley, and R. August Heindl (page images at HathiTrust)
• Differential thermal analysis applied to the lime-soda sinter process (U.S. Dept. of the Interior, Bureau of Mines, 1949), by A. J. Kauffman (page images at HathiTrust)
• Proposed process for treatment of low-grade titaniferous ores : laboratory tests on sintering with carbon and soda ash to produce metallic iron and soluble titanates (U.S. Dept. of the Interior, Bureau of Mines, 1950), by Robert T. MacMillan, John E. Conley, and Joseph I. Dinnin (page images at HathiTrust)
• Lime-sinter processing of anorthosite for the recovery of alumina (U.S. Dept. of the Interior, Bureau of Mines, 1982), by V. E. Edlund (page images at HathiTrust)
• Atmospheric pressure desilication of leach liquors from lime-sinter processing of anorthosite (U.S. Dept. of the Interior, Bureau of Mines, 1982), by Masami Hayashi (page images at HathiTrust)
• Recovery of phosphates and metals from waste phosphate sludge by reduction-sinter processes (U.S. Dept. of Interior, Bureau of Mines, 1971), by R. F. Waters, A. A. Cochran, H. E. Powell, and United States Bureau of Mines (page images at HathiTrust)
• Recovery of alumina from anorthosite, San Gabriel Mountains, California, using the lime soda sinter process (Bureau of Mines, 1963), by Raynard V. Lundquist and Gordon B. Oakeshott (page images at HathiTrust)
• Application of a diffusion model to oxide sintering (Dept. of the Interior, Bureau of Mines, 1979), by C. D. Messelt, E. K. Landis, and D. A. Stanley (page images at HathiTrust)
• Lime-soda sinter process for alumina from high-silica bauxites : laboratory and pilot-plant tests (U.S. Dept. of the Interior, Bureau of Mines, 1949), by John E. Conley and Milford L. Skow (page images at HathiTrust)
• Lime soda sinter process : correlation of reaction products with extractability of alumina from anorthosite (U.S. Dept. of the Interior, Bureau of Mines, 1967), by Sarkis G. Ampian and United States Bureau of Mines (page images at HathiTrust)
• Improved tungsten carbide-cobalt compacts by electric-resistance sintering (U.S. Dept. of the Interior, Bureau of Mines, 1955), by Perry G. Cotter, R. A. Potter, J. A. Kohn, and United States Bureau of Mines (page images at HathiTrust)
• Sintering of pyrrhotite calcine (U.S. Dept. of the Interior. Bureau of Mines, 1963), by W. E. Lamont, R. E. Perry, I. L. Feld, United States Pipe and Foundry Company, University of Alabama, and United States Bureau of Mines (page images at HathiTrust)
• Two hydrated calcium aluminates encountered in the lime-soda sinter process (U.S. Dept. of the Interior, Bureau of Mines, 1963), by Raynard V. Lundquist, Harold Leitch, and United States Bureau of Mines (page images at HathiTrust)
• Experiments in purifying solutions from lime-sintered beryl concentrates (U.S. Dept. of the Interior, Bureau of Mines, 1962), by J. M. Riley (page images at HathiTrust)
• Flotation and sintering studies on manganese ores stockpiled at Deming, N. Mex., and Wenden, Ariz. (U.S. Dept. of the Interior, Bureau of Mines, 1962), by W. W. Agey and V. E. Edlund (page images at HathiTrust)
• Some characteristics of iron in the lime soda sinter process for recovering alumina from anorthosite (U.S. Dept. of the Interior, Bureau of Mines, 1962), by Raynard V. Lundquist and Eben L. Singleton (page images at HathiTrust)
• Control of gelation in extraction of alumina from lime-soda-clay sinters (U.S. Dept. of the Interior, Bureau of Mines, 1946), by Guy Ervin, John E. Conley, and Delwin D. Blue (page images at HathiTrust)
• Methods for producing alumina from clay : an evaluation of two lime sinter processes (U.S. Dept. of the Interior, Bureau of Mines, 1969), by Frank A. Peters, Earle B. Amey, Paul W. Johnson, John J. Henn, and United States Bureau of Mines (page images at HathiTrust)
• An assessment of opportunities for gas-fired sintering in the advanced ceramics and powdered metals industries topical report June 1986 - May 1987 (Gas Research Institute, 1987), by Gary L. Messing, D. A. Koss, Pennsylvania State University. Center for Advanced Materials, and Gas Research Institute (page images at HathiTrust)
• Sintering studies on the system UO₂-PuO₂. Part II, Sinterability (U.S. Atomic Energy Commission, 1959), by T. D. Chikalla, United States. National Bureau of Standards, United States. Department of Energy. Office of Fusion Energy, United States. National Bureau of Standards. Fracture and Deformation Division, U.S. Atomic Energy Commission, United States. Energy Research and Development Administration, Hanford Works, and Hanford Atomic Products Operation. Reactor and Fuels Research and Development Operation (page images at HathiTrust)
• Correlation of surface characteristics with the sintering behavior of uranium dioxide powders (U.S. Atomic Energy Commission, 1957), by D. R. Stenquist, R. J. Anicetti, B. Mastel, U.S. Atomic Energy Commission, United States. Energy Research and Development Administration, Hanford Works, and Hanford Atomic Products Operation. Reactor and Fuels Research and Development Operation (page images at HathiTrust)
• Fabrication behavior of some uranium dioxide powders (U.S. Atomic Energy Commission, 1957), by D. R. Stenquist, R. J. Anicetti, United States. National Bureau of Standards, United States. Department of Energy. Office of Fusion Energy, United States. National Bureau of Standards. Fracture and Deformation Division, U.S. Atomic Energy Commission, United States. Energy Research and Development Administration, Hanford Works, and Hanford Atomic Products Operation. Reactor and Fuels Research and Development Operation (page images at HathiTrust)
• Sintering studies on the system UO₂-PuO₂. Part I, Solid solution formation (U.S. Atomic Energy Commission, 1959), by T. D. Chikalla, United States. National Bureau of Standards, United States. Department of Energy. Office of Fusion Energy, United States. National Bureau of Standards. Fracture and Deformation Division, U.S. Atomic Energy Commission, United States. Energy Research and Development Administration, Hanford Works, and Hanford Atomic Products Operation. Reactor and Fuels Research and Development Operation (page images at HathiTrust)
• The investigation of the activated sintering of tungsten powder. Prepared under U. S. Navy, Bureau of Naval Weapons contract no. w 61-0326-d, final report covering the period Nov. 1, 1961 to Jan. 31, 1963 (U. S. Govt. Print. Off.], 1963), by James John Brophy (page images at HathiTrust)
• Effect of oxide additions and temperature on sinterability of milled silicon nitride (National Aeronautics and Space Administration, Scientific and Technical Information Branch ;, 1980), by Alan Arias, United States. National Aeronautics and Space Administration. Scientific and Technical Information Branch, and Lewis Research Center (page images at HathiTrust)
• Modulus and rupture and oxidation resistance of Si₂.₅₅Al₀.₆0₀.₇₂N₃.₅₂ Sialon (National Aeronautics and Space Administration, Scientific and Technical Information Branch ;, 1979), by Alan Arias, Lewis Research Center, and United States. National Aeronautics and Space Administration. Scientific and Technical Information Branch (page images at HathiTrust)
• Silicon nitride-aluminum oxide solid solution (SiAION) formation and densification by pressure sintering (National Aeronautics and Space Administration ;, 1975), by Hun C. Yeh, Jere L. Fiyalko, William A. Sanders, and Lewis Research Center (page images at HathiTrust)
• Effect of oxygen-nitrogen ratio on sinterability of sialons (National Aeronautics and Space Administration, Scientific and Technical Information Office ;, 1979), by Alan Arias, Lewis Research Center, and United States. National Aeronautics and Space Administration. Scientific and Technical Information Office (page images at HathiTrust)
• The sintered copper powder (National Aeronautics and Space Administration, 1961), by Ė. M. Savit︠s︡kiĭ and A. I. Vlasor (page images at HathiTrust)
• Fabrication of cermets of uranium nitride and tungsten or molybdenum from mixed powders and from coated particles (National Aeronautics and Space Administration ;, 1969), by Philip D. Takkunen and Lewis Research Center (page images at HathiTrust)
• Sintering carbides by means of fugitive binders (U.S. Atomic Energy Commission, Technical Information Branch, 1949), by Lawrence S. Foster, U.S. Atomic Energy Commission, and Watertown Arsenal (Mass.) (page images at HathiTrust)
• The extraction of protactinium from solid thorium fluoride (Brookhaven National Laboratory, 1954), by F. T. Miles, R. H. Wiswall, R. J. Heus, Brookhaven National Laboratory, and U.S. Atomic Energy Commission (page images at HathiTrust)
• Compaction and sintering of PuO₂-Mo powder mixtures (Los Alamos Scientific Laboratory of the University of California, 1961), by W. J. Maraman, J. A. Leary, K. A. Johnson, W. C. Pritchard, Los Alamos Scientific Laboratory, and U.S. Atomic Energy Commission (page images at HathiTrust)
• Radiation sintering (Brookhaven National Laboratory, 1968), by A. C. Damask, Brookhaven National Laboratory, and U.S. Atomic Energy Commission (page images at HathiTrust)
• Further studies of sintered refractory uranium compounds (Battelle Memorial Institute ;, 1959), by Arch B. Tripler, Winston H. Duckworth, M. J. Snyder, U.S. Atomic Energy Commission, and Battelle Memorial Institute (page images at HathiTrust)
• Some properties of high-purity sintered wrought molybdenum metal at temperatures up to 2400©� F (National Advisory Committee for Aeronautics, 1951), by R. A. Long, H. R. Bear, K. C. Dike, and United States. National Advisory Committee for Aeronautics (page images at HathiTrust)
• Hot pressing of low-molybdenum-uranium alloys (Los Alamos Scientific Laboratory of the University of California, 1961), by G. S. Hanks, T. L. Crisler, L. S. Levinson, U.S. Atomic Energy Commission, and Los Alamos Scientific Laboratory (page images at HathiTrust)
• High density W-UO₂ by activated sintering (Los Alamos Scientific Laboratory of the University of California, 1962), by W. H. Lenz, P. R. Mundinger, U.S. Atomic Energy Commission, and Los Alamos Scientific Laboratory (page images at HathiTrust)
• Compaction and sintering of PuO₂-type 302B stainless steel powder mixtures (Los Alamos Scientific Laboratory of the University of California, 1963), by W. C. Pritchard, J. A. Leary, K. A. Johnson, Los Alamos Scientific Laboratory, and U.S. Atomic Energy Commission (page images at HathiTrust)
• Roles of niobium pentoxide, vanadium pentoxide and titanium dioxide in the grain growth and sintering of uranium dioxide (United States Atomic Energy Commission, Division of Technical Information, 1960), by James Frederick Watson, D. R. Wilder, Ames Laboratory, and U.S. Atomic Energy Commission (page images at HathiTrust)
• Effect of calcium fluoride additions on the sintering of magnesium oxide (United States Atomic Energy Commission, Technical Information Service, 1957), by F. Wayne Calderwood, Dave Wilder, Ames Laboratory, and U.S. Atomic Energy Commission (page images at HathiTrust)
• Fast oxide breeder project - II : preliminary sintering studies of plutonium-uranium doxide pellets (United States Atomic Energy Commission, Division of Technical Information ;, 1960), by J. M. Cleveland, William C. Cavanaugh, Vallecitos Atomic Laboratory, General Electric Company, and U.S. Atomic Energy Commission (page images at HathiTrust)
• Fission sintering of boride powders (United States Atomic Energy Commission, Technical Information Service, 1962), by E. W. Hoyt, D. L. Zimmerman, General Electric Company, U.S. Atomic Energy Commission, and Vallecitos Atomic Laboratory (page images at HathiTrust)
• Production, precision forming, and sintering of ceramic-grade UO₂ (U.S. Atomic Energy Commission, Union Carbide Nuclear Company, 1961), by A. J. Caputo, J. E. Perry, Oak Ridge Y-12 Plant, Union Carbide Nuclear Company, and U.S. Atomic Energy Commission (page images at HathiTrust)
• Basic materials studies sinterable high purity BeO final report (General Electric, Nuclear Materials and Propulsion Operation, 1961), by W. J. Kirkpatrick, E.S. Funston, G.R. Anderson, U.S. Atomic Energy Commission, and General Electric Company (page images at HathiTrust)
• Sintering characteristics of rare earth oxides (Knolls Atomic Power Laboratory, General Electric Company, 1956), by G. L. Ploetz, C. W. Krystyniak, U.S. Atomic Energy Commission, General Electric Company, and Knolls Atomic Power Laboratory (page images at HathiTrust)
• Sintering studies of PuO₂-UO₂ (Knolls Atomic Power Laboratory, General Electric Company, 1957), by J. N. Frank, U.S. Atomic Energy Commission, General Electric Company, and Knolls Atomic Power Laboratory (page images at HathiTrust)
• Kinetics of hot pressing (Atomics International, 1961), by J. D. McClelland, North American Aviation. Atomics International Division, and U.S. Atomic Energy Commission (page images at HathiTrust)
• Fundamentals of sintering. (Sylvania Electric Products, Inc., Atomic Energy Division :, 1956), by Inc Sylvania Electric Products (page images at HathiTrust)
• The process of pulse sintering (Oak Ridge, Tennessee : United States Atomic Energy Commission, Technical Information Service, 1949., 1949), by Bernard Kopelman, Inc Sylvania Electric Products, and U.S. Atomic Energy Commission (page images at HathiTrust)
• The theories of the sintering process : a guide to the literature (1931-1951) (Washington, D.C. : Office of Technical Services, Department of Commerce, 1951., 1951), by Herbert B. Michaelson, Inc Sylvania Electric Products, and U.S. Atomic Energy Commission (page images at HathiTrust)
• Grain growth during sintering (Oak Ridge, Tennessee : United States Atomic Energy Commission, Technical Information Service, 1954., 1954), by Henry H. Hausner, Inc Sylvania Electric Products, and U.S. Atomic Energy Commission (page images at HathiTrust)
• Structure, composition, and properties of the ceramic materials (Ames, Iowa : Ames Laboratory, 1963., 1963), by D. R. Wilder, Ames Laboratory, and U.S. Atomic Energy Commission (page images at HathiTrust)
• Ordering in oxide solid solutions (Wright-Patterson Air Force Base, Ohio : Aeronautical Systems Division, Air Force Systems Command, United States Air Force, 1961., 1961), by H. H. Wilson, United States. Air Force. Systems Command. Aeronautical Systems Division, United States. Air Force. Systems Command. Aeronautical Systems Division. Directorate of Materials and Processesd States, and Clemson Agricultural College of South Carolina (page images at HathiTrust)
• A fundamental study of the variables associated with the mixing of ceramic raw materials (Wright-Patterson Air Force Base, Ohio : Aeronautical Systems Division, Air Force Systems Command, United States Air Force, 1963., 1963), by D. W. Fuerstenau, J. A. Pask, R. M. Fulrath, United States. Air Force. Systems Command. Aeronautical Systems Division, and Berkeley University of California (page images at HathiTrust)
• The effect of elevated temperature on the fatigue strength of sintered-aluminum powder (Wright-Patterson Air Force Base, Ohio : Wright Air Development Division, Air Research and Development Command, United States Air Force, 1956., 1956), by W. S. Hyler, H. J. Grover, Battelle Memorial Institute, and Wright Air Development Center (page images at HathiTrust)

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