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  • AIME
    Institute of Metals Division - Mechanical Properties and Superlattice Formation of Mg3Cd

    By N. S. Stoloff, R. G. Davis

    It is concluded from an X-ray stztdy that the formation of the hcp Mg3Cd superlattice is a nuclea-tion and growth reaction. A two-phase, ordered-plus-disordered, region is observed between 153" nnd 14

    Jan 1, 1964

  • AIME
    Institute of Metals Division - Mechanical Properties of Alpha Titanium as Affected by Structure and Composition

    By R. I. Jaffee, F. C. Holden, H. R. Ogden

    The effects of grain size and shape on alloys of titanium with nitrogen and aluminum have been determined. Increasing a grain size decreases strength and hardness and increases impact resistance. Quen

    Jan 1, 1955

  • AIME
    Institute of Metals Division - Mechanical Properties of Beryllium Copper at Subzero Temperatures

    By R. M. Brick, J. T. Richards

    Tests have been conducted to determine the mechanical properties of several beryllium copper alloys down to liquid air temperatures. The materials investigated include beryllium copper, beryl-lium-cob

    Jan 1, 1955

  • AIME
    Institute of Metals Division - Mechanical Properties of Beryllium Fabricated by Powder Metallurgy

    By K. G. Wikle, W. W. Beaver

    The factors which control the rate of dissolution of pure gold in cyanide solution were studied both directly and through measurement of solution the current-potential curves for the anodic and cathod

    Jan 1, 1955

  • AIME
    Institute of Metals Division - Mechanical Properties of Beryllium Fabricated by Powder Metallurgy (0ef6c77c-0d65-496b-a7ba-200c41f3a1a4)

    By K. G. Wikle, W. W. Beaver

    A general survey of the mechanical properties of commercially pure beryllium fabricated from powder by vacuum hot pressing and other consolidation methods is presented. The effect of fabrication metho

    Jan 1, 1955

  • AIME
    Institute of Metals Division - Mechanical Properties of High Purity Ti-Al Alloys (Discussion page 1561)

    By R. I. Jaffee, H. R. Ogden, D. J. Maykuth, W. L. Finlay

    Titanium with up to 7.5 pct Al forms single-phase a alloys that are work hardening, not heat treatable, and ductile as welded. The high aluminum Y phase alloys are not usefully ductile, despite their

    Jan 1, 1954

  • AIME
    Institute of Metals Division - Mechanical Properties of Intermetallic Compounds at Elevated Temperatures (Correction TP 3305E In the May 1952 issue: TP 33053. Discussion-Institute of Metals Division. P. 536, "On the Mechanism and Kinetics of

    By Robert Lowrie

    Nine intermetallic compounds were tested in tension at various temperatures. Seven exhibited extensive plastic deformation at elevated temperatures. Correlations of tensile strength and elongation are

    Jan 1, 1953

  • AIME
    Institute of Metals Division - Mechanical Properties of Low-Carbon Alloy-Free Martensites

    By W. H. McFarland

    The mechanical properties have been determined for a large number of alloy-free martensitic steels with carbon contents ranging from 0.08 to 0.20 pct and with manganese contents of about 0.4 to 0.5 pe

    Jan 1, 1965

  • AIME
    Institute of Metals Division - Mechanical Properties of Magnesium Monocrystals

    By R. R. Nash, W. F. Sheely

    Experiments were conducted on magnesium monocrystals in order to collect quantitative information on the mechanisms which limit the rate of basal slip. Using critical shear stress and creep data, act

    Jan 1, 1961

  • AIME
    Institute of Metals Division - Mechanical Properties of Stainless Steel Powder

    By George A. Roberts, Arthur H. Grobe

    Tensile, hardness and density properties are presented for a new 18-8 stainless steel powder for the —50, —100, and —140 mesh cuts and also for a prepared blend containing 62 pct —325 mesh powde

    Jan 1, 1952

  • AIME
    Institute of Metals Division - Mechanical Properties of Tantalum Metal Consolidated by Melting

    By M. Schussler, J. S. Brunhouse

    Arc-melted and electron-beam melted tantalum in the cold-worked and the recrystallized conditions showed high strength, good tensile ductility, and excellent notch toughness down to 321°F. Arc-melted

    Jan 1, 1961

  • AIME
    Institute of Metals Division - Mechanical Twinning in Fe-5 Wt Pct Be (TN)

    By R. H. Richman, II Conard G. P.

    AS part of a study of deformation twinning in bcc crystals, solid solutions of beryllium in iron have been found to twin profusely when strained slowly at room temperature. This note reports some crys

    Jan 1, 1963

  • AIME
    Institute of Metals Division - Mechanical Twinning in the AuCd B' Phase (TN)

    By T. A. Read, H. K. Birnbaum

    STRESS-induced twin boundary motion in the AuCd ß'phase (52.5 at. pct Au 47.5 at. pct Cd having an orthorhombic structure (space group D h)' was discussed for the case of transformation twi

    Jan 1, 1961

  • AIME
    Institute of Metals Division - Mechanism for the Origin of Recrystallization Nuclei

    By J. P. Nielsen

    When two grains in a polycrystalline specimen meet at a point in the course of grain-boundary movements, and the new boundary created at the point is one of relatively low specific free energy, a none

    Jan 1, 1955

  • AIME
    Institute of Metals Division - Mechanism for Thermally Activated Prismatic Slip in Ag2-Al

    By J. D. Mote, A. Rosen, J. E. Dorn

    The effect of strain rate and temperature on the critical resolved shear stress for (1100) [1120] prismatic slip was determined for the intermediate hexagonal phase containing about 67 at. pct Ag and

    Jan 1, 1964

  • AIME
    Institute of Metals Division - Mechanism of Electrical Conduction in Molten Cu S-Cu Cl and Mattes

    By G. Derge, Ling Yang, G. M. Pound

    The specific conductance and its temperature dependence were measured over the entire composition range of the molten Cu2S-CuCI system. At a typical temperature of 1200°C, 10 rnol pet of the ionically

    Jan 1, 1957

  • AIME
    Institute of Metals Division - Mechanism of Fatigue Deformation at Elevated Temperatures

    By W. A. Wood, W. H. Reimann, Maria Ronay

    The basic mechanism of fatigue is studied in annealed a brass subjectecl to alternating torsion at room temperature, 100°, 200°, 300°, and 400°C, and in air. It is shown that the slip-zone micro-crack

    Jan 1, 1965

  • AIME
    Institute of Metals Division - Mechanism of Grain Refinement in Aluminum Alloys

    By L. F. Mondolfo, F. A. Crossley

    The mechanism of grain refinement by the addition of small amounts of titanium, molybdenum, zirconium, tungsten, and chromium to aluminum was investigated. The results indicate that the grain refineme

    Jan 1, 1952

  • AIME
    Institute of Metals Division - Mechanism of IntercrystallineFracture (Discussion, p. 1416)

    By Nicholas J. Grant, H. C. Chang

    Microscopic observations during creep tests were made on AI-20 pet Zn, 80 pet Ni-20 pet Cr, and 25 and 3S aluminum specimens. All these materials failed in an inter-crystalline manner under certain st

    Jan 1, 1957

  • AIME
    Institute of Metals Division - Mechanism of Ortho Kink- Band Formation in Compressed Zinc Monocrystals

    By J. J. Gilman

    The dependence of ortho kink-band formation on crystal orientation, on temperature, and on the conditions at the ends of a specimen is described. Load-compression curves for crystals that kink are pre

    Jan 1, 1955