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  • AIME
    Institute of Metals Division - High Temperature 0xidation of Some Iron-Chromium Alloys

    By M. Cohen, D. Caplan

    The scaling characteristics of three Fe-Cr alloys have been investigated by determining their weight gain vs. time curves at 1600° to 2000° F. The scales formed thereby have been examined using the te

    Jan 1, 1953

  • AIME
    Institute of Metals Division - High Temperature Oxidation of Copper-Palladium and Copper-Platinum Alloys

    By D. E. Thomas

    Oxidation rate constants were determined for Cu-Pd and Cu-Pt alloys as a function of alloy composition and temperature. Reaction products were identified. Relationship between oxidation rate constants

    Jan 1, 1952

  • AIME
    Institute of Metals Division - High Temperature Properties of Iron-Rich Fe-Mo Alloys

    By S. F. Reiter, W. R. Hibbard

    A survey of the effect of heat treatment on the room temperature hardness of Fe-Mo alloys has been made. Constant strain rate tensile tests were performed between room temperature and 1800°F. These da

    Jan 1, 1956

  • AIME
    Institute of Metals Division - High Temperature Strength of Wrought Aluminum Powder Products (Discussion page 1334)

    By N. J. Grant, E. Gregory

    The creep rupture properties of wrought aluminum powder products made from five grades of sintered aluminum powder were investigated at temperatures from 400° to 900°F for rupture times up to 1000 hr.

    Jan 1, 1955

  • AIME
    Institute of Metals Division - High-Temperature Creep of Tantalum

    By W. V. Green

    Creep of tantalum was measured at temperatures from 0.6 to 0.89 of the absolute melting temperature. The creep curves include first, second, and third stages. Steady-state creep rate depends on the fo

    Jan 1, 1965

  • AIME
    Institute of Metals Division - High-Temperature Short-Time Creep of Graphite. H E Martens

    By D. D. Button, L. D. Jaffee

    INTEREST in the use of graphite as a high-temperature engineering structural material has recently increased markedly. However, actual use of this material has been limited, in part because informat

    Jan 1, 1961

  • AIME
    Institute of Metals Division - High-Temperature Thermodynamics of the Silicon, Nitrogen, Silicon-Nitride System

    By R. D. Pehlke, J. F. Elliott

    The equilibrium pressure of nitrogen gas over pure silicon metal and silicon nitride has been measured in the temperature range 1400° to 1700°C. From the experimental data, the standard free energies

    Jan 1, 1960

  • AIME
    Institute of Metals Division - Homogeneous Solidification of Ge-Si Alloys

    By L. Ekstrom, J. P. Dismukes

    The homogeneity and microstrcture of zone-leveled Ge-Si alloys haw been investigated by sellera1 physical techniques and by metallography as a function of growth rate in the range 3 x 10 1x10 cm-sec&a

    Jan 1, 1965

  • AIME
    Institute of Metals Division - Homogenization Kinetics of a Sintered Columbium Alloy

    By S. Leber, R. F. Hehemann

    This investigation describes the kinetics of alloying in a (Cb-15 wt pct W. 5 wt pct Mo, 1 wt pct Zr) powder-metallurgy alloy. The degree of homogeneity obtained in hydrostatic ally pressed and vacuum

    Jan 1, 1964

  • AIME
    Institute of Metals Division - Hot Pressing of Molybdenum Powder

    By R. W. Heckel

    The densification of molybdenum powder by hot pressing has been studied as a function of time (up to about 3 x 104 sec) at pressures of 5000, 15,000, and 30,000 psi in the temperature range from 3700o

    Jan 1, 1965

  • AIME
    Institute of Metals Division - Hydrogen Diffusion in a Beta-Titanium Alloy

    By F. Paredes, W. R. Holman, R. W. Crawford

    The diffusion coefficient for hydrogen in the ß titanium alloy containing 13 pct V, 11 pct CY, and 3 pct A1 was measured over the temperature range 20° to 500°C. Results fit the expression: D= 1.58

    Jan 1, 1965

  • AIME
    Institute of Metals Division - Hydrogen Distribution in Heat-Treated Titanium as Established by Autoradiography

    By O. J. Huber

    HYDROGEN effects in titanium alloys have been the subject of extensive research in recent years. Lenning, Craighead, and Jaffee1 showed that hydrogen embrittles a titanium and, at the same time, eleva

    Jan 1, 1958

  • AIME
    Institute of Metals Division - Hydrogen Embrittlement of Steels (Discussion page 1327a)

    By W. M. Baldwin, J. T. Brown

    The effect of hydrogen on the ductility, c, of SAE 1020 steel at strain rates, i, from 0.05 in. per in. per rnin to 19,000 in. per in. per rnin and at temperature, T, from +150° to —320°F was determin

    Jan 1, 1955

  • AIME
    Institute of Metals Division - Hydrogen in Cold Worked Iron-Carbon Alloys and the Mechanism of Hydrogen Embrittlement

    By E. W. Johnson, M. L. Hill

    Cold working of iron-carbon alloys was found to increase greatly the hydrogen solubility and to decrease the diffusivity at temperatures up to 400° C. These effects are increasing functions of both

    Jan 1, 1960

  • AIME
    Institute of Metals Division - Hydrogen in Proton-Bombarded Beryllium: Agglomeration and Diffusion

    By E. J. Rapperport, J. P. Pemsler

    Proton irradiation of high-purity distilled berylliuwz was utilized to introduce various hydrogen contents from 0.00075 to 0.075 at. pct (0.83 to 83 ppm) in a band 0.004 cm wide. After irradiation, th

    Jan 1, 1964

  • AIME
    Institute of Metals Division - Hydrogen Solubility in Aluminum and Some Aluminum Alloys

    By N. J. Gran, W. R. Opie

    HYDROGEN in molten aluminum and aluminum alloys, which precipitates during cooling and solidification, is the principal cause of pin hole porosity in ingots and castings. Much attention has been given

    Jan 1, 1951

  • AIME
    Institute of Metals Division - Identification and Stability of BN in Boron Low-Carbon Steels

    By J. F. Butler

    Boron nitride, BN, has been identified in boron low-carbon steels by means of light microscopy, electron microscopy and diffraction, and chemical analysis. This boron nitride is responsible for strai

    Jan 1, 1962

  • AIME
    Institute of Metals Division - Identification of Chi and Sigma Phases in Stainless Steel with the Electron Probe Microanalyzer

    By P. K. Koh, L. S. Birks, J. M. Siomkajlo

    Direct identification in situ of x and a phase precipitates in stainless steel is possible with the electron probe microanalyzer. Although particles in the 1 p size range are too small to yield absolu

    Jan 1, 1961

  • AIME
    Institute of Metals Division - Identification of Deformation Twins in a Molybdenum-35 Pct. Rhenium Alloy (TN)

    By A. Lawley, H. W. Schadler

    TWINNING has long been recognized as a possible mode of deformation in crystalline solids and has been studied in a wide variety of crystals.' Recently, deformation markings which have the topogr

    Jan 1, 1962

  • AIME
    Institute of Metals Division - Identification of Intermediate Phases in the Manganese-Titanium System

    By R. M. Waterstrat

    X-ray diffraction and metallographic examination of binary Mn-rich alloys with Ti revealed the presence of intermediate phases in this system. A binary R phase has been identified and also a phase hav

    Jan 1, 1962