The Online Books Page

Light metal alloys

See also what's at your library, or elsewhere.

Broader term:

Alloys

Narrower terms:

Used for:

Light alloys

Filed under: Aluminum alloys

Alcoa Structural Handbook: A Design Manual for Aluminum (revised edition; Pittsburgh: Aluminum Company of America, c1958), by Aluminum Company of America (page images at HathiTrust)
Analytical methods for aluminum alloys. (Chicago, 1948), by Ill.) Aluminum Research Institute (Chicago (page images at HathiTrust)
Standard methods for the sampling and analyzing of aluminum and certain aluminum alloys. (Aluminum research institute, 1939), by Ill.) Aluminum Research Institute (Chicago (page images at HathiTrust)
Aluminum in aircraft. (Aluminum company of America, 1941), by Aluminum Company of America (page images at HathiTrust)
Aluminum and aluminum alloys in the form of ingots, castings, bars, plates, sheets, tubes, wire and all forms of structural shapes ... (Pittsburgh, Pa., 1897), by Aluminum Company of America and Alfred E. Hunt (page images at HathiTrust)
Forming aluminum. (Aluminum company of America, 1941), by Aluminum Company of America (page images at HathiTrust)
The metallurgy of aluminium and aluminium alloys. (Baird, 1925), by Robert John Anderson (page images at HathiTrust)
ALCOA structural handbook. (Aluminum Company of America, 1948), by Aluminum Company of America (page images at HathiTrust)
Reports of the Light Alloys Sub-committee. (H. M. Stationery Off., 1921), by Great Britain Advisory Committee for Aeronautics (page images at HathiTrust)
Structural aluminum handbook. (Aluminum company of America, 1938), by Aluminum Company of America (page images at HathiTrust)
Structural aluminum handbook. (Aluminum company of America, 1940), by Aluminum Company of America (page images at HathiTrust)
Kaiser aluminum sheet and plate product information. (Oakland, Calif., 1953), by inc Kaiser Aluminum and Chemical Sales (page images at HathiTrust)
The aluminum data book; Reynolds aluminum alloys and mill products. (Louisville, Ky., 1954), by Reynolds Metals Company (page images at HathiTrust)
Alcoa aluminum in automatic screw machines. (Pittsburgh, 1955), by Aluminum Company of America (page images at HathiTrust)
An Investigation of sheet-stiffener panels subjected to compression loads with particular reference to torsionally weak stiffeners (National Advisory Committee for Aeronautics, 1940), by Louis Dunn and United States National Advisory Committee for Aeronautics (page images at HathiTrust)
Alcoa aluminum and its alloys. (The company, 1950), by Aluminum Company of America (page images at HathiTrust)
Eleventh report to the Alloys Research Committee on some alloys of aluminium (light alloys) (By authority of the Council, 1921), by Walter Rosehain, D. Hanson, S. L. Archbutt, National Physical Laboratory (Great Britain), and Institution of Mechanical Engineers (Great Britain). Alloys Research Committee (page images at HathiTrust; US access only)
Aluminum in architecture. (Aluminum company of America, 1932), by Aluminum Company of America (page images at HathiTrust)
Design specifications for bridges and structures of aluminum alloy 27S-T (Aluminum Co. of America, 1940), by Leon Solomon Moisseiff (page images at HathiTrust)
Aluminum in aircraft. (Aluminum company of America, 1930), by Aluminum Company of America (page images at HathiTrust)
Improvement of the corrosion resistance of aluminum brass for use in seawater conversion plants (U.S. Dept. of the Interior; [for sale by the Supt. of Docs., U.S. Govt. Print. Off.], 1971), by Maurice A. H. Howes and United States. Office of Saline Water (page images at HathiTrust)
Swelling of aluminum-clad aluminum-plutonium alloys on postirradiation annealing (Argonne National Laboratory, 1963), by B. A. Loomis, Argonne National Laboratory, and U.S. Atomic Energy Commission (page images at HathiTrust)
Methane ignition by frictional impact between aluminum alloys and rusted steel (U.S. Bureau of Mines, 1975), by Donald H. Desy, John S. Risbeck, and L. A. Neumeier (page images at HathiTrust)
Oxidation of cobalt-nickel-aluminum alloys at 1,351⁰ to 1,429⁰ K (U.S. Dept. of Interior, Bureau of Mines, 1971), by Robert M. Doerr, J. W. Jensen, and United States Bureau of Mines (page images at HathiTrust)
Chemical spot tests for aluminum alloys (U.S. Dept. of Interior, Bureau of Mines, 1971), by A.W. Maynard, Donald A. Wilson, and United States Bureau of Mines (page images at HathiTrust)
Improvement of a commercial hypereutectic aluminum-silicon master alloy (U.S. Dept. of the Interior, Bureau of Mines, 1966), by R. R. Lowery, Haruo Kat©Æo, Jack G. Croeni, and United States Bureau of Mines (page images at HathiTrust)
The heat-treatment and annealing of aluminum and its alloys (Sherwood Pr., 1933), by N. F. Budgen (page images at HathiTrust)
Strong aluminum alloys. (Aluminum Company of America, 1928), by Aluminum Company of America (page images at HathiTrust)
Aluminum, the metal and its alloys (a critical descriptive treatise) by M. G. Corson (M. G. Korunsky) (D. Van Nostrand company, 1926), by Michael George Corson and Joseph RamoÌn Vilella (page images at HathiTrust; US access only)
Alcoa aluminum in automatic screw machines. (Aluminum Company of America, 1949), by Aluminum Company of America (page images at HathiTrust)
Tensile creep of boron/epoxy and boron/epoxy-reinforced 7075-T6 aluminum alloy (U.S. National Bureau of Standards :, 1972), by Daniel J. Chwirut and Langley Research Center (page images at HathiTrust)
Tensile behavior of boron/epoxy-reinforced 7075-T6 aluminum alloy at elevated temperatures (National Bureau of Standards :, 1974), by Daniel J. Chwirut, George F. Sushinsky, and United States. National Bureau of Standards (page images at HathiTrust)
The corrosion of aluminum alloys in high-velocity water at 170 to 290⁰C (Oak Ridge National Laboratory, 1961), by J. L. English, J. C. Griess, L. Rice, and U.S. Atomic Energy Commission (page images at HathiTrust)
The corrosion of aluminum alloys in the Oak Ridge Research Reactor (Oak Ridge National Laboratory, 1961), by P. D. Neumann, U.S. Atomic Energy Commission, and Oak Ridge National Laboratory. Reactor Chemistry Division (page images at HathiTrust)
Deformation textures in uranium-aluminum alloys (Oak Ridge National Laboratory, 1958), by William Clarence Thurber and U.S. Atomic Energy Commission (page images at HathiTrust)
Development of silicon-modified 48 Wt % U-Al alloys for aluminum plate-type fuel elements (Oak Ridge National Laboratory, 1959), by Wm. C. Thurber, R. J. Beaver, and U.S. Atomic Energy Commission (page images at HathiTrust)
Behavior of chemical nickel plate on aluminum alloys in high temperature, dynamic, aqueous systems (Hanford Atomic Products Operation, 1964), by A. B. Jr Johnson, U.S. Atomic Energy Commission, United States. Energy Research and Development Administration, and Hanford Atomic Products Operation (page images at HathiTrust)
Erosion-corrosion of aluminum alloys (Hanford Atomic Products Operation, 1963), by R. L. Dillon, R. S. Hope, U.S. Atomic Energy Commission, Hanford Atomic Products Operation, and Pacific Northwest Laboratory (page images at HathiTrust)
Observations on the mechanisms and kinetics of aqueous aluminum corrosion II (Hanford Atomic Products Operation, 1961), by R. L. Dillon, U.S. Atomic Energy Commission, Hanford Atomic Products Operation, and Pacific Northwest Laboratory (page images at HathiTrust)
Fabrication of aluminum clad plutonium-aluminum alloy pin elements (U.S. Atomic Energy Commission, 1960), by L. C. Lemon, W. T. Ross, 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)
Casting aluminum-plutonium alloys (U.S. Atomic Energy Commission, 1960), by C. H. Bloomster, 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)
Fabrication of alumnium-plutonium alloy fuel elements by coextrusion (U.S. Atomic Energy Commission, 1959), by W. T. Ross, Y. B. Katayama, C. H. Bloomster, W. J. Bailey, 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)
Role of the corrosion product film in the uniform aqueous corrosion of aluminum (U.S. Atomic Energy Commission, 1957), by R. L. Dillon, 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 of aluminum-plutonium fuel elements for lattice tests in support of PRTR (U.S. Atomic Energy Commission, 1957), by W. J. Bailey, D. A. Patterson, R. K. Koler, 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)
Plutonium-aluminum fuel element development (U.S. Atomic Energy Commission, 1957), by M. D. Freshley, 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)
Intergranular corrosion of aluminum-uranium and aluminum-silicon-uranium alloys (U.S. Atomic Energy Commission, 1958), by H. C. Bowen, R. L. Dillon, 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 application of a nominal 48 WT % U-AL alloy to plate-type aluminum research reactor fuel elements (Oak Ridge National Laboratory, 1958), by W. C. Thurber, R. J. Beaver, J. H. Erwin, U.S. Atomic Energy Commission, and Oak Ridge National Laboratory Metallurgy Division (page images at HathiTrust)
Boron-aluminum and boron-uranium-aluminum alloys for reactor application (Oak Ridge National Laboratory, 1957), by W. C. Thurber, R. J. Beaver, J. A. Milko, U.S. Atomic Energy Commission, Union Carbide Nuclear Company, and Oak Ridge National Laboratory. Metallurgy Division (page images at HathiTrust)
High vacuum flange test of a bakeable aluminum wire seal (Oak Ridge National Laboratory, 1964), by J. D. Redman, U.S. Atomic Energy Commission, Union Carbide Corporation, and Oak Ridge National Laboratory. Reactor Chemistry Division (page images at HathiTrust)
Forming Alcoa aluminum. (Aluminum Co. of America, 1962), by Aluminum Company of America (page images at HathiTrust; US access only)
Interim summary report on the development program for resistance, spot and seam welding of aluminum alloys. Phase III: Development and standardization of design criteria. (Akron, Ohio, 1956), by Goodyear Aircraft Corporation (page images at HathiTrust; US access only)
Alcoa aluminum and its alloys. (Aluminum Company of America, 1940), by Aluminum Company of America (page images at HathiTrust; US access only)
Alcoa aluminum and its alloys. (Aluminum Company of America, 1938), by Aluminum Company of America (page images at HathiTrust)
Advanced test reactor : investigation of the corrosion behavior of materials of construction (U.S. Atomic Energy Commision, Division of Technical Information, 1963), by D. W. Koch, E. E. Ritchie, K. F. Riskevics, and Babcock & Wilcox Company Research Center (page images at HathiTrust)
Effect of alloying constituents on aluminum dissolution rates (U.S. Atomic Energy Commission, Idaho Operations Office, 1963), by R. D. Fletcher, H. R. Beard, M. E. Jacobson, Idaho Chemical Processing Plant, Idaho National Reactor Testing Station, and Phillips Petroleum Company. Atomic Energy Division (page images at HathiTrust)
Thermal expansion of beryllium and aluminum-beryllium alloys (U.S. Dept. of Commerce, Bureau of Standards :, 1927), by Peter Hidnert, W. T. Sweeney, and United States. National Bureau of Standards (page images at HathiTrust)
Aluminum in aircraft. (Aluminum company of America., 1943), by Aluminum Company of America (page images at HathiTrust)
Investigation of bearing creep of two forged aluminum alloys (U.S. Dept. of Commerce, Office of Technical Services, 1960), by Leonard Mordfin, Philip J. Granum, and Nixon Halsey (page images at HathiTrust)
Wear of aluminum and hypoeutectic aluminum-silicon alloys in boundary-lubricated pin-on-disk sliding (National Aeronautics and Space Administration, Scientific and Technical Information Office ;, 1979), by John Ferrante, William A. Brainard, Lewis Research Center, and United States. National Aeronautics and Space Administration. Scientific and Technical Information Office (page images at HathiTrust)
Long-term thermal degradation and alloying constituent effects on five boron/aluminum composites (National Aeronautics and Space Administration, Scientific and Technical Information Branch ;, 1982), by George C. Olsen and United States. National Aeronautics and Space Administration. Scientific and Technical Information Branch (page images at HathiTrust)
Morphology of an aluminum alloy eroded by a jet of angular particles impinging at normal incidence (National Aeronautics and Space Administration, Scientific and Technical Information Branch ;, 1983), by P. Veerabhadra Rao, Donald H. Buckley, Stanley G. Young, and United States. National Aeronautics and Space Administration. Scientific and Technical Information Branch (page images at HathiTrust)
Oxidation characteristics of Ti-14Al-21Nb alloy (National Aeronautics and Space Administration, Office of Management, Scientific and Technical Information Division ;, 1990), by Sankara Narayan Sankaran and Langley Research Center (page images at HathiTrust)
Time dependence of solid-particle impingement erosion of an aluminum alloy (National Aeronautics and Space Administration, Scientific and Technical Information Branch ;, 1983), by P. Veerabhadra Rao, Donald H. Buckley, and United States. National Aeronautics and Space Administration. Scientific and Technical Information Branch (page images at HathiTrust)
Experimental and analytical investigations on multiple liquid impact erosion (National Aeronautics and Space Administration ;, 1969), by A. Thiruvengadam, S. L. Rudy, United States National Aeronautics and Space Administration, and inc Hydronautics (page images at HathiTrust)
Design of a convective cooling system for a Mach 6 hypersonic transport airframe (National Aeronautics and Space Administration ;, 1971), by R. G. Helenbrook, F. M. Anthony, Langley Research Center, and Bell Aerospace Company (page images at HathiTrust)
Carbide coated fibers in graphite-aluminum composites : progress report (National Aeronautics and Space Administration ;, 1975), by Richard J. Imprescia, Langley Research Center, and Los Alamos Scientific Laboratory (page images at HathiTrust)
Carbide coated fibers in graphite-aluminum composites (U.S. National Aeronautics and Space Administration ;, 1976), by Richard J. Imprescia, United States National Aeronautics and Space Administration, Los Alamos Scientific Laboratory, and Langley Research Center (page images at HathiTrust)
The effect of composition on the mechanism of stress-corrosion cracking of titanium alloys in N2O4, and aqueous and hot-salt environments (National Aeronautics and Space Administration ;, 1970), by J. D. Boyd, United States National Aeronautics and Space Administration, and Battelle Memorial Institute (page images at HathiTrust)
Correlation of stress-wave-emission characteristics with fracture aluminum alloys (National Aeronautics and Space Administration ;, 1972), by Carl E. Hartbower and Advanced Technology. Aerojet Solid Propulsion Company (page images at HathiTrust)
Some measurements of noise transmission and stres response of a 0.020-inch duralumin panel in the presence of air flow. (National Aeronautics and Space Administration :, 1960), by George T. Kantarges and Lewis Research Center (page images at HathiTrust)
Fatigue of four stainless steels, four titanium alloys, and two aluminum alloys before and after exposure to elevated temperatures for up to three years (National Aeronautics and Space Administration ;, 1971), by Walter Illg, L. A. Imig, Langley Research Center, and United States National Aeronautics and Space Administration (page images at HathiTrust)
Experimental investigation of the momentum transfer associated with impact into thin aluminum targets (National Aeronautics and Space Administration :, 1969), by C. Nysmith, B. Denardo, Ames Research Center, and United States National Aeronautics and Space Administration (page images at HathiTrust)
Effects of changing stress amplitude on the rate of fatigue-crack propagation in two aluminum alloys (National Aeronautics and Space Administration, 1961), by C. M. Hudson, Herbert F. Hardrath, United States National Aeronautics and Space Administration, and Langley Research Center (page images at HathiTrust)
NASA TN D-3268 (National Aeronautics and Space Administration :, 1966), by John R. McGhee, Langley Research Center, and United States National Aeronautics and Space Administration (page images at HathiTrust; US access only)
Axial-load fatigue tests using loading schedules based on maneuver-load statistics. Eugene C. Naumann and Russell L. Schott. (National Aeronautics and Space Administration :, 1962), by Eugene C. Naumann, Russell L. Schott, and United States National Aeronautics and Space Administration (page images at HathiTrust)
Determination of the creep deflection and lifetime of aluminum-alloy multiweb box beams subjected to varied loads at constant temperature (National Aeronautics and Space Administration :, 1962), by Avraham Berkovits and United States National Aeronautics and Space Administration (page images at HathiTrust)
Unified notch-strength analysis for wrought aluminum alloys. Paul Kuhn and I.E. Figge. (National Aeronautics and Space Administration :, 1962), by Paul Kuhn, I. E. Figge, and United States National Aeronautics and Space Administration (page images at HathiTrust)
Range of interface thermal conductance for aircraft joints (National Aeronautics and Space Administration, 1960), by Martin E. Barzelay and Syracuse University (page images at HathiTrust)
Creep bending and buckling of thin circular cylindrical shells (National Aeronautics and Space Administration, 1960), by Burton Erickson and Polytechnic Institute of Brooklyn (page images at HathiTrust)
Boral : a new thermal neutron shield (U.S. Atomic Energy Commission, Technical Information Service, 1954), by V. L. McKinney, Theodore Rockwell, Oak Ridge National Laboratory. Technical Division and Reactor Experimental Engineering Division, and U.S. Atomic Energy Commission (page images at HathiTrust)
The alloy systems uranium-aluminum and uranium-iron (U.S. Atomic Energy Commission, Technical Information Division, 1950), by Paul Gordon, A. R. Kaufman, Massachusetts Institute of Technology, and U.S. Atomic Energy Commission (page images at HathiTrust)
The development of aluminum-6 per cent magnesium wrought alloys for elevated-temperature service and their resistance to corrosion in water at temperatures up to 600⁰F (U.S. Atomic Energy Commission, Technical Information Service, 1950), by K. Grube, L. W. Eastwood, U.S. Atomic Energy Commission, and Battelle Memorial Institute (page images at HathiTrust)
Boral : a new thermal neutron shield, supplement I (Oak Ridge National Laboratory, 1951), by A. S. Kitzes, W. Q. Hullings, Oak Ridge National Laboratory, and U.S. Atomic Energy Commission (page images at HathiTrust)
Nitric acid dissolution of uranium-aluminum alloy (Hanford Works, 1952), by R. E. Burns, C. H. Holm, General Electric Company, Hanford Works, and U.S. Atomic Energy Commission (page images at HathiTrust)
Report to the Alloys Research Committee. (Institution of Mechanical Engineers, 1891), by Institution of Mechanical Engineers (Great Britain). Alloys Research Committee (page images at HathiTrust; US access only)
The Pittsburgh Reduction Co. : Aluminum and aluminum alloys in the form of ingots, castings, bars, plates, sheets, tubes, wire, and all forms of structural shapes . (The Myers & SHinkle company, printers, 1898), by Pittsburgh Reduction Company (page images at HathiTrust)
Aluminum and aluminum alloys in the form of ingots, castings, bars, plates, sheets, tubes, wire, and all forms of structural shapes (Ewens & Eberle, 1903), by Pittsburgh Reduction Company and Alfred E. Hunt (page images at HathiTrust)
Preliminary investigation of the compressive strength and creep lifetime of 2024-T3 (formerly 24S-T3) aluminum-alloy plates at elevated temperatures (National Advisory Committee for Aeronautics, 1955), by Eldon E. Mathauser, William D. Deveikis, Langley Aeronautical Laboratory, United States. National Adviosry Committee for Aeronautics, and United States National Advisory Committee for Aeronautics (page images at HathiTrust)
The Lateral stability of equal-flanged aluminum-alloy I-beams subjected to pure bending (National Advisory Committee for Aeronautics ;, 1940), by C. Dumont, H. N. Hill, and United States National Advisory Committee for Aeronautics (page images at HathiTrust)
Tension properties of aluminum alloys in the presence of stress-raisers. [Part] 1, Effects of triaxial stress states on the fracturing characteristics of 24S-T aluminum alloy (National Advisory Committee for Aeronautics, 1949), by A. W. Dana, G. Sachs, E. L. Aul, and United States National Advisory Committee for Aeronautics (page images at HathiTrust)
Tension properties of aluminum alloys in the presence of stress-raisers. [Part] 2, Comparison of notch strength properties of 24S-T, 75S-T, and 24S-T86 aluminum alloy (National Advisory Committee for Aeronautics, 1949), by E. L. Aul, G. Sachs, A. W. Dana, and United States National Advisory Committee for Aeronautics (page images at HathiTrust)
Elevated-temperature compressive stress-strain data for 24S-T3 aluminum-alloy sheet and comparisons with extruded 75S-T6 aluminum alloy (National Advisory Committee for Aeronautics, 1949), by William M. Roberts and United States National Advisory Committee for Aeronautics (page images at HathiTrust)
Effect of open circular holes on tensile strength and elongation of sheet specimens of some aluminum alloys (National Advisory Committee for Aeronautics, 1949), by H. N. Hill, R. S. Barker, and United States National Advisory Committee for Aeronautics (page images at HathiTrust)
A structural-efficiency evaluation of titanium at normal and elevated temperatures (National Advisory Committee for Aeronautics, 1951), by George J. Heimerl, Paul F. Barrett, and United States National Advisory Committee for Aeronautics (page images at HathiTrust)
An Investigation of pure bending in the plastic range when loads are not parallel to a principal plane (National Advisory Committee for Aeronautics, 1951), by Harry A. Williams and United States National Advisory Committee for Aeronautics (page images at HathiTrust)
Alloys of aluminum, thorium and uranium (United States Atomic Energy Commission, Technical Information Service, 1956), by Gene E. Bobeck, Harley A. Wilhelm, Ames Laboratory, and U.S. Atomic Energy Commission. Technical Information Service (page images at HathiTrust)
Preliminary investigation of effect of environmental factors on salt stress corrosion cracking of Ti-8Al-lMO-lV at elevated temperatures (National Aeronautics and Space Administration ;, 1964), by D. N. Braski and Langley Research Center (page images at HathiTrust)
Dissolving highly irradiated Pu - Al alloy (E.I. du Pont de Nemours & Company, Savannah River Laboratory, 1964), by William C. Perkins, U.S. Atomic Energy Commission, Savannah River Laboratory, and E.I. du Pont de Nemours & Company (page images at HathiTrust)
Dissolution of Pu-Al alloy (E.I. du Pont de Nemours & Co., Explosives Dept., Atomic Energy Division, Technical Division, Savannah River Laboratory, 1962), by William C. Perkins, U.S. Atomic Energy Commission, Savannah River Laboratory, and E.I. du Pont de Nemours & Company (page images at HathiTrust)
Recovery of plutonium from irradiated plutonium-aluminum alloy (E.I. du Pont de Nemours & Company, Savannah River Laboratory, 1962), by William C. Perkins, Hugh E. Henry, William J. Jenkins, Myron R. Caverly, Carl S. Schlea, U.S. Atomic Energy Commission, Savannah River Laboratory, and E.I. du Pont de Nemours & Company (page images at HathiTrust)
Reactivity comparisons between cobalt and lithium-aluminum alloy (E.I. du Pont de Nemours & Co., Explosives Dept., Atomic Energy Division, Technical Division, Savannah River Laboratory, 1957), by Harold R. Fike, U.S. Atomic Energy Commission, Savannah River Laboratory, and E.I. du Pont de Nemours & Company (page images at HathiTrust)
Aluminum casting alloys and alloys for other purposes. (Aluminum Company of America, 1941), by Aluminum Company of America (page images at HathiTrust; US access only)
Preparation of thorium-aluminum alloys by direct thoria reduction (Atomics International, 1960), by D. O. Raleigh, North American Aviation. Atomics International Division, and U.S. Atomic Energy Commission (page images at HathiTrust)
Diffusion kinetics studies in the Al-Ni-U system (Canoga Park, California : Atomics International, 1963., 1963), by R. A. Harlow, Otto Gamba, North American Aviation. Atomics International Division, and U.S. Atomic Energy Commission (page images at HathiTrust)
Increasing the compressive strength of 24S-T aluminum-alloy sheet by flexure rolling (National Advisory Committee for Aeronautics ;, 1946), by George J. Heimerl, Walter Woods, and United States National Advisory Committee for Aeronautics (page images at HathiTrust)
NACA Wartime Reports. Series L. (National Advisory Committee for Aeronautics, 1945), by James P. Peterson, Langley Aeronautical Laboratory, and United States National Advisory Committee for Aeronautics (page images at HathiTrust)
NACA Wartime Reports. Series L. (National Advisory Committee for Aeronautics, 1945), by James P. Peterson, Langley Aeronautical Laboratory, and United States National Advisory Committee for Aeronautics (page images at HathiTrust)
NACA Wartime Reports. Series L. (National Advisory Committee for Aeronautics, 1944), by Paul Kuhn, L. Ross Levin, Langley Aeronautical Laboratory, and United States National Advisory Committee for Aeronautics (page images at HathiTrust)
Welding aluminum and its alloys. (Aluminum company of America, 1938), by Aluminum Company of America (page images at HathiTrust; US access only)
Welding and brazing Alcoa aluminum. (Aluminum company of America, 1942), by Aluminum Company of America (page images at HathiTrust; US access only)
The equilibrium phases in the uranium-aluminum-iron alloys in the partial domain uranium-UAl2-UFe2 (Weldon Spring, Missouri. : Mallinckrodt Chemical Works, Uranium Division, 1963., 1963), by G©·unter Petzow, Raghav Tank, U.S. Atomic Energy Commission, and Mo.). Uranium Division Mallinckrodt Chemical Works (Saint Louis (page images at HathiTrust)
Alcoa aluminum in architecture : alloys, fabrication, products, finishes. ([Pittsburgh, Pa., 1951), by Aluminum Company of America (page images at HathiTrust; US access only)
Casting aluminum. (Richmond, 1960), by Reynolds Metals Company (page images at HathiTrust; US access only)
Demonstration of advanced conductors for overhead transmission lines : 1017448 : final project report ([Sacramento, Calif.] : California Energy Commission, [2006], ©2008, 2006), by California Energy Commission. Energy Research and Development Division, Electric Power Research Institute, and J. Chan (page images at HathiTrust)
Premium-quality aluminum castings (Columbus, Ohio : Defense Metals Information Center, Battelle Memorial Institute, 1965., 1965), by K. R. Grube, H. R. Ogden, D. N. Williams, and Defense Metals Information Center (U.S.) (page images at HathiTrust)
Corrosion of materials by ethylene glycol-water (Columbus, Ohio : Defense Metals Information Center, Battelle Memorial Institute, 1965., 1965), by J. D. Jackson, Walter K. Boyd, Frederick W. Fink, P. D. Miller, and Defense Metals Information Center (U.S.) (page images at HathiTrust)
A review of some electron-microscopic fractographic studies of aluminum alloys (Columbus, Ohio : Defense Metals Information Center, Battelle Memorial Institute, 1964., 1964), by W. R. Warke and Defense Metals Information Center (U.S.) (page images at HathiTrust)
Stress-corrosion cracking of aluminum alloys (Columbus, Ohio : Defense Metals Information Center, Battelle Memorial Institute, 1966., 1966), by F. H. Haynie, Walter K. Boyd, and Defense Metals Information Center (U.S.) (page images at HathiTrust)
Welding of aluminum and aluminum alloys (Columbus, Ohio : Defense Metals Information Center, Battelle Memorial Institute, 1967., 1967), by R. P. Meister, D. C. Martin, and Defense Metals Information Center (U.S.) (page images at HathiTrust)
Plane-strain fracture-toughness data for selected metals and alloys (Columbus, Ohio : Defense Metals Information Center, Battelle Memorial Institute, 1969., 1969), by James E. Campbell and Defense Metals Information Center (U.S.) (page images at HathiTrust)
Room temperature tensile properties of large 7075-T6 and 7075-T73 aluminum-alloy forgings (Columbus, Ohio : Battelle Memorial Institute, Defense Metals Information Center, 1970., 1970), by D. P. Moon, W. S. Hyler, and Defense Metals Information Center (U.S.) (page images at HathiTrust)
The shear, fatigue, bend, impact, and long-time-load strength properties of structural metal-to-metal adhesives in bonds to 24S-T3 aluminum alloy (U.S. Dept. of Agriculture, Forest Service, Forest Products Laboratory, 1953), by Herbert W. Eickner, University of Wisconsin, and Forest Products Laboratory (U.S.) (page images at HathiTrust)
Breeding-gain specimens for EBR-I Core IV (Argonne National Laboratory, Metallurgy Division, 1963), by A. B. Shuck and Argonne National Laboratory (page images at HathiTrust)
Tentative standards and recommended practices and procedures for spot welding of aluminum alloys (The Society, 1942), by American Welding Society. Aircraft Welding Standards Committee and Resistance Welder Manufacturers' Association (page images at HathiTrust; US access only)
Recovery of metals using aluminum displacement (Hazardous Waste Engineering Research Laboratory, Office of Research and Development, U.S. Environmental Protection Agency, 1988), by Steven C. Meyers, James S. Bridges, Minnesota Technical Assistance Program, Minnesota Waste Management Board, and Hazardous Waste Engineering Research Laboratory (page images at HathiTrust)
Quarterly technical progress report : fuels, materials, and coolant chemistry programs, January-March 1970 (Canoga Park, California : Atomics Internationa, North American Rockwell, 1970., 1970), by Rockwell International. Atomics International Division and U.S. Atomic Energy Commission (page images at HathiTrust)
Undissolved uranium aluminide in reprocessing of test reactor ruels (Idaho Falls, Idaho : Idaho Nuclear Corporation, 1970., 1970), by B. E. Paige, V. H. Barnes, M. E. Jacobson, T. L. Evans, U.S. Atomic Energy Commission. Idaho Operations Office, Allied Chemical Corporation, and Aerojet-General Corporation (page images at HathiTrust)
The creep properties of metals under intermittent stressing and heating conditions. Part 2, Intermittent heating (Wright-Patterson Air Force Base, Ohio : Wright Air Development Center, Air Research and Development Command, United States Air Force, 1953., 1954), by Lawrence A. Shepard, John E. Dorn, Carl D. Wiseman, C. Dean Starr, United States. Air Force. Air Research and Development Command, Wright Air Development Center, Aerospace Medical Laboratory (U.S.), and University of California (page images at HathiTrust)
On stress interaction in fatigue and cumulative damage rule : part II. 7075 aluminum alloy (Wright Patterson Air Force Base, Ohio : Wright Air Development Center, Air Research and Development Command, United States Air Force, 1960., 1956), by Alfred M. Freudenthal, Robert A. Heller, United States. Air Force. Air Research and Development Command, and Wright Air Development Center (page images at HathiTrust)
The aluminum industry (McGraw-Hill book company, inc., 1930), by Junius David Edwards, Zay Jeffries, Francis C. Frary, and Aluminum Company of America (page images at HathiTrust)
Casting aluminum. ([Louisville, Ky., 1956), by Reynolds Metals Company (page images at HathiTrust; US access only)
Investigation of stress-strain history modeling at stress risers : Phase 2 (Wright-Patterson Air Force Base, Ohio : Air Force Flight Dynamics Laboratory, Air Force Wright Aeronautical Laboratories, Air Force Systems Command, United States Air Force, 1978., 1978), by James R. Carroll, R. F. Wilkinson, R. L. Brugh, Air Force Flight Dynamics Laboratory (U.S.), and Lockheed-Georgia Company (page images at HathiTrust)
A study of the influence of geometry on the strength of fatigue cracked panels (Wright-Patterson Air Force Base, Ohio : Air Force Flight Dynamics Laboratory, Research and Technology Division, Air Force Systems Command, United States Air Force, 1966., 1966), by E. K. Walker, Northrop Corporation, and Air Force Flight Dynamics Laboratory (U.S.) (page images at HathiTrust)
The effect of size and stress history on fatigue crack initiation and propagation (Wright-Patterson Air Force Base, Ohio : Directorate of Materials Processes, Aeronautical Systems Division, Air Force Systems Command, United States Air Force, 1962., 1962), by Waloddi Weibull and United States. Air Force. Systems Command. Aeronautical Systems Division. Directorate of Materials Processes (page images at HathiTrust)
The statistical nature of fatigue crack propagation (Wright-Patterson Air Force Base, Ohio : Air Force Flight Dynamics Laboratory, Air Force Wright Aeronautical Laboratories, Air Force Systems Command, United States Air Force, 1978., 1978), by D. A. Virkler, P. K. Goel, B. M. Hillberry, United States. Air Force. Systems Command, Air Force Flight Dynamics Laboratory (U.S.), and Purdue University. School of Mechanical Engineering (page images at HathiTrust)
Metallography of dispersion hardened alloys and its relation to creep resistance (Wright-Patterson Air Force Base, Ohio : Air Force Materials Laboratory, Aeronautical Systems Division, Air Force Systems Command, United States Air Force, 1963., 1963), by I. S. Brammar, D. W. Dawe, United States. Air Force. Systems Command. Aeronautical Systems Division, and Air Force Materials Laboratory (U.S.) (page images at HathiTrust)
Influence of residual stresses on random fatigue life, in bending, of notched 7075 Aluminum specimens (Wright-Patterson Air Force Base, Ohio : Aeronautical Systems Division, Air Force Systems Command, United States Air Force, 1962., 1962), by R. A. Heller, A. M. Freudenthal, M. Seki, United States. Air Force. Systems Command. Aeronautical Systems Division, and Columbia University. Department of Civil Engineering and Engineering Mechanics (page images at HathiTrust)
Investigation of the distribution of tension in notched construction elements (Wright-Patterson Air Force Base, Ohio : Directorate of Materials and Processes, Aeronautical Systems Division, Air Force Systems Command, United States Air Force, 1963., 1963), by H. Neuber, United States. Air Force. Systems Command. Aeronautical Systems Division. Directorate of Materials and Processesd States, and Technische Hochschule München (page images at HathiTrust)
Summary of landing gear initial flaws (Wright-Patterson Air Force Base, Ohio : Air Force Flight Dynamics Laboratory, Air Force Wright Aeronautical Laboratories, Air Force Systems Command, United States Air Force, 1977., 1977), by W. T. Fujimoto, J. P. Gallagher, United States. Air Force. Systems Command, Air Force Flight Dynamics Laboratory (U.S.), and McDonnell Douglas Corporation (page images at HathiTrust)
High alloy content cermets containing titanium diboride as the minor constituent (Wright Patterson Air Force Base, Ohio : Wright Air Development Center, Air Research and Development Command, United States Air Force, 1955., 1955), by Tracy A. Willmore, Dwight D. Bennett, United States. Air Force. Air Research and Development Command, and Wright Air Development Center (page images at HathiTrust)
Fracture control procedures for aircraft structural integrity (Wright-Patterson Air Force Base, Ohio : Air Force Flight Dynamics Laboratory, Air Force Systems Command, United States Air Force, 1971., 1971), by Howard A. Wood and Air Force Flight Dynamics Laboratory (U.S.) (page images at HathiTrust)
Forming Alcoa aluminum. (Pittsburgh : [publisher not identified], [1961], 1961), by Aluminum Company of America (page images at HathiTrust; US access only)
Development of a mathematical model for predicting the percentage fatigue life increase resulting from shot peened components. Phase I (Wright-Patterson Air Force Base, Ohio : Flight Dynamics Laboratory, Air Force Wright Aeronautical Laboratories, Air Force Systems Command, United States Air Force, 1985., 1985), by Roger S. Simpson, Air Force Wright Aeronautical Laboratories, and Air Force Flight Dynamics Laboratory (U.S.) (page images at HathiTrust)

More items available under narrower terms.

Help with reading books -- Report a bad link -- Suggest a new listing

Home -- Search -- New Listings -- Authors -- Titles -- Subjects -- Serials

Books -- News -- Features -- Archives -- The Inside Story

Edited by John Mark Ockerbloom (onlinebooks@pobox.upenn.edu)
OBP copyrights and licenses.