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Institute of Metals Division - Ductile Fracture of AluminumBy W. A. Backofen, G. Y. Chin, W. F. Hosford
The ductile fracturing process was studied in single-crystal and poly cvystalline aluminum deformed in tension over a temperature range from 295° to 4.2°K. At temperatures as low as 77°K, the fracture
Jan 1, 1964
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Institute of Metals Division - Ductility in Beryllium Related to Grain Orientation and Grain SizeBy J. Greenspan
The anisotropy of fracture and slip, that is, the brittleness and ductility of the beryllium single crystal, is characteristic also of po1ycrystalline beryllium in which the grains are oriented in a p
Jan 1, 1960
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Institute of Metals Division - Dynamic Effects During Twinning in Alpha IronBy Erhard Hornbogen
Twins were propagated into large, well-annealed crystals of a, iron-phosphorous and a, iron-molybdenum solid solutions. Strain fields caused by interaction of these twins were made visible by precipit
Jan 1, 1962
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Institute of Metals Division - Dynamic Formation of Slip Bands in AluminumBy N. K. Chen, R. B. Pond
IN the study of slip band* formation, there have been many examples to show that they do not always appear as lines traversing the entire crystal, but as segments whose ends seem to vanish in their pa
Jan 1, 1953
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Institute of Metals Division - Dynamic Young's Modulus Measurements above 1000°C on Some Pure Polycrystalline Metals and Commercial GraphitesBy Harry L. Brown, Philip E. Armstrong
Young's modulus doto ore presented for W, Mo. Ta. V, Cr. Ni, Ti, and Zr as a function of temperature up to about 0.7 of the melting points. A plot of reduced temperature us reduced modulus produc
Jan 1, 1964
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Institute of Metals Division - Easy Glide and Grain Boundary Effects in Polycrystalline AluminumBy R. L. Fleischer, W. F. Hosford
Tensile data for coarse grained aluminum Polycrystals suggest that the "grain size" effect is not due to dislocations piled up at grain boundaries but rather is primarily a relative size effect due t
Jan 1, 1962
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Institute of Metals Division - Edge-Nucleated, Growth Controlled Recrystallization in AluminumBy R. A. Vandermeer, P. Gordon
The study of recrystallization in cold-worked metals is complicated by the impossibility of making direct three-dimensional optical measurements. Metallo-graphically, theinternal three-dimensional fea
Jan 1, 1960
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Institute of Metals Division - Effect of 500°C Aging on the Deformation Behavior of an Iron-Chromium AlloyBy M. J. Marcinkowski, A. Szirmae, R. M. Fisher
Room -temperature hardness measurements obtained from single and polycrystalline samples of a 47.8 at, pet Cr-Fe alloy which were aged for various times al 500°C show a two-fold increase over that of
Jan 1, 1964
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Institute of Metals Division - Effect of Alloying Elements on the Behavior of Nitrogen in Alpha Iron (Discussion page 1560)By L. J. Dijkstra, R. J. Sladek
IN earlier work the effect of manganese on the general behavior of nitrogen in iron was the subject of a careful examination by Fast.' Part of the investigation was made, in collaboration with on
Jan 1, 1954
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Institute of Metals Division - Effect of Alloying Elements on the Elevated Temperature Plastic Properties of Alpha Solid Solutions of AluminumBy R. A. Anderson, O. D. Sherby, J. E. Dorn
Solid solution alloying increases the plastic properties of aluminum at elevated temperatures by solid solution strengthening, by restraining recovery and recrystallization, and by a Cottrell effect.
Jan 1, 1952
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Institute of Metals Division - Effect of Alpha Solutes on the Heat-Treatment Response of Ti-Mn AlloysBy R. I. Jaffee, F. C. Holden, H. R. Ogden
Alpha solutes increase the strengths of Ti-Mn alloys through solid-solution strengthening. The substitutional a addition, aluminum, decreases, and the interstitial solutes, carbon and nitrogen, increa
Jan 1, 1956
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Institute of Metals Division - Effect of Aluminum on the Low Temperature Properties of Relatively High Purity FerriteBy H. T. Green, R. M. Brick
True stress-strain data on alloys of pure iron with up to 2.4 pct Al were obtained in the temperature range +100° to —185°C. Alumi-num was found to reduce yield and flow stresses of iron at low temper
Jan 1, 1955
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Institute of Metals Division - Effect of Annealing in a Magnetic Field Upon Iron-Cobalt and Iron-Cobalt-Nickel Alloys prepared by Powder MetallurgyBy R. J. Franklin, G. W. Beckman, D. Warren, E. Both, J. F. Libsch
BINARY and ternary alloys of iron, nickel and cobalt respond to annealing in a magnetic field by a characteristic change in the shape of their hysteresis 100p.l,2 An increase in retentivity and a decr
Jan 1, 1951
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Institute of Metals Division - Effect of Applied Stress on the Martensitic TransformationBy B. L. Averbach, Morris Cohen, S. A. Kulin
The martensitic transformation can be initiated by elastic stresses at temperatures above M. in a steel containing 20 pct Ni and 0.5 pct C. Shear strains and normal tensile strains acting on a potenti
Jan 1, 1953
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Institute of Metals Division - Effect of Carbide Dispersion in Molybdenum AlloysBy W. H. Chang
The phase identification results on several Mg-base alloys are presented. These results have been correlated with strength data and microstructural studies to indicate that carbide dispersion may co
Jan 1, 1961
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Institute of Metals Division - Effect of Carbon on Some Properties of Ti-Mo AlloysBy W. Rostoker, D. W. Levinson, A. Yamamoto
The influence of carbon on tensile strength, tensile ductility, transformation kinetics, and grain growth characteristics of selected Ti-Mo base alloys was studied. No systematic influence of carbon i
Jan 1, 1957
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Institute of Metals Division - Effect of Changes in Slip Direction on the Creep of Magnesium CrystalsBy H. Conrad
The strain hardening associated with the creep of magnesium single crystals at room temperatu.Je was investigated by shear tests in which the direction of stressing was reversed a number of times afte
Jan 1, 1960
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Institute of Metals Division - Effect of Cobalt on Carbon Activity and Diffusivity in SteelBy E. J. Dulis, V. K. Chandhok, J. P. Hirth
Cobalt clearly increased the activity of carbon in austenite and in ferrite. This effect of cobalt on carbon activity Plausibly accounted for the effect of cobalt on accelerating the austenite to pe
Jan 1, 1962
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Institute of Metals Division - Effect of Cold Work on Copper-Rich Copper-Iron AlloysBy A. Boltax
The effect of cold work on the electrical and magnetic properties of solution-treated and aged Cu-Fe alloys was studied. The electrical resistivity of solution-treated and of aged Cu-1.7 wt pct Fe sam
Jan 1, 1962
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Institute of Metals Division - Effect of Copper Additions on the Activation Energies for Creep of Aluminum Single CrystalsBy D. Walton
The effect of small solute additions of Cu on the activation energies for creep A1 single crystals were determined over the range from 78° to 850° K. Below 240°K and above 800°K activation energies we
Jan 1, 1962