Search Documents
Search Again
Search Again
Refine Search
Refine Search
- Relevance
- Most Recent
- Alphabetically
Sort by
- Relevance
- Most Recent
- Alphabetically
-
Aluminum - Extraction of Alumina from Clays by the Lime-sinter Modification of the Pedersen Process.By John H. Walthall, Raymond L. Copson, Travis P. Hignett
In October 1942, the War Production Board requested the Tennessee Valley Authority to undertake investigations to determine the feasibility of producing alumina suitable for reduction in aluminum cell
Jan 1, 1944
-
Aluminum - The Ammonium Sulphate Process for Production of Alumina from Western Clays.By A. T. Sweet, C. E. Plummer, H. W. St. Clair, S. F. Ravitz
The ammonium sulphate process for recovering alumina from clays was proposed by Rinman, Buchner, and others many years ago, and more recently various modifications have been investigated both here ari
Jan 1, 1944
-
Aluminum ? How to Utilize Surplus Capacity Is Postwar ProblemBy R. L. Sebastian
ALUMINUM'S war history is the record of a successful race to expand facilities fast enough to meet the multiple increases in military requirements, principally for aircraft. From the beginning of
Jan 1, 1946
-
Aluminum Alloy 7050 T7451 Thin Wall High-Speed Machining Parts StudyBy V. Songmene, A. Tahan, J. P. Michaud
The machining of thin wall parts, often used in the aeronautical industry still creates a number of problems, including panel deformation. Quality and productivity are often affected. This study seeks
Jan 1, 2006
-
Aluminum and Aluminum Alloys - Effect of a Dispersed Phase on Grain Growth in Al-Mn Alloys (Metals Tech., Sept. 1948, TP 2475)By P. R. Sperry, M. L. Holzworth, P. A. Beck
The basic work of Z. Jeffries 1,2,3 has long ago established the main features of grain growth in the presence of a dispersed second phase. Working with sintered specimens of initially fine grained tu
Jan 1, 1949
-
Aluminum and Aluminum Alloys - Solubility of Iron in Solid Aluminum (Metals Tech., June, 1948, TP 2389)By J. K. Edgar
For a number of years the production and use of super-purity aluminum (better than 99.99 pct) has been steadily increasing. High-grade lots of. such aluminum show certain outstanding characteristics n
Jan 1, 1949
-
Aluminum and Aluminum Alloys - Some Effects of Applied Stresses on Precipitation Phenomena (Metals Tech., Sept. 1948, TP 2470)By W. R. Finlay, W. R. Jr. Hibbard
The key feature of the lattice coherency theory of precipitation hardening1 is the forced coherence between matrix and precipitate which elastically strains both lattices and is believed to be the ma
Jan 1, 1949
-
Aluminum and Its ApplicationsBy James W. Cameron
DESPITE the fact that, after oxygen and silicon, aluminum is the most abundant and widely distributed element in the earth's crust, it is, commercially, a modern metal. Attempts were made by Sir
Jan 1, 1939
-
Aluminum And MagnesiumBy John D. Sullivan
MAJOR technical advances seldom occur in a single year, and this is especially true with aluminum and magnesium where marked improvements in metallurgical processes and products took place during the
Jan 1, 1948
-
Aluminum and Magnesium ? Technology Goes Ahead Even With Curtailed ProductionBy John D. Sullivan
ALUMINUM and magnesium plants in the United States underwent enormous wartime expansion which made many wonder if ghost plants would result when industry swung back to a peacetime basis. Production ca
Jan 1, 1947
-
Aluminum and Magnesium ? Wartime Production Had to be Cut Down But Technical Skill Acquired Likely to Have Big Postwar UtilityBy George C. Heikes
ALTHOUGH the application of light metals in war materiel increased during the year, based on the number of uses, the trend in aluminum and magnesium production in 1944 was characterized by a sharp dec
Jan 1, 1945
-
Aluminum Castings of High StrengthBy Robert Archer
THE proper material of construction for a given purpose is that material which meets the requirements satisfactorily at the lowest ultimate cost. It is consistent with this principle that most aluminu
Jan 9, 1926
-
Aluminum Castings of High StrengthBy Robert S. Archer
THE proper material of construction for a given purpose is that material which meets the requirements satisfactorily at the lowest ultirnatc cost. It is consistent with this principle that most alumin
Jan 1, 1927
-
Aluminum Chloride Restoration Of In Situ Leached Uranium OresBy David C. Grant
During in situ uranium mining using ammonium bicarbonate lixiviant, the ammonium exchanges with cations on the ore's clay. Mter mining is complete, the ammonium may desorb into post-leach ground
Jan 1, 1982
-
Aluminum Deoxidation Equilibrium in Liquid Fe-36%Ni Alloy at 1773KBy Sang-Beom Lee
For thermodynamic prediction, the deoxidation equilibrium of aluminum in Fe-36%Ni alloy was studied with a cold crucible under Ar gas atmosphere at 1773K. For the deoxidation reaction in liquid Fe-36%
Jan 1, 2002
-
Aluminum Dross Oxiide Products For The Portland Cement IndustryBy Dale A. Zuck
Recovery of aluminum metal from drosses? is a major factor in the recyclability success story enjoyed by the United States aluminum industry. Today's modern dross processor uses the latest techno
Jan 1, 1995
-
Aluminum Dust for SilicosisLeading Article from "British Medical Journal," London, 4th, November, 1944.Assuming that silica exerts its injurious effect upon animal tissue through a slow transformation into silicic aci
Jan 1, 1945
-
Aluminum from Cans to Cars: Recycling the Future / Opportunities and ChallengesBy G. M. Scamans
In the past ten years there has been considerable penetration of aluminum automotive body sheet (ABS) into automotive structures. The exponential increase in demand is resulting in major investments i
Jan 1, 2015
-
Aluminum from Cans to Cars: Recycling the Future / Opportunities and ChallengesBy G. M. Scamans
In the past ten years there has been considerable penetration of aluminum automotive body sheet (ABS) into automotive structures. The exponential increase in demand is resulting in major investments i
Jan 1, 2015
-
Aluminum MetallurgyBy PAUL P. ZElGLER
Rapid growth of the aluminum industry continued through 1948 with an acute shortage of the metal in all forms marking the year. Estimates based on shipments made during the first nine months indicate
Jan 1, 1949