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  • AIME
    Institute of Metals Division - The Zirconium-Hafnium-Hydrogen System at Pressures Less Than 1 Atm: Part I – A Thermochemical Study

    By J. Alfred Berger, O. M. Katz

    The Zv-Hf-H ternary system was studied between 500° and 900°C at pressures less than 1 atm of hydrogen gas between 1 and 60 at. pct H. A new and unique microgravimentric apparatus was used. Cizanges o

    Jan 1, 1965

  • AIME
    Institute of Metals Division - The Zirconium-Hafnium-Hydrogen System at Pressures Less Than 1 Atm: Part II – A Structural Investigation

    By J. Alfred Berger, O. M. Katz

    Selected samples of hydrided Zr-Hf alloys were rapidly quenched to voom temperature and exrtrnined metallographically, by X-ray diffraction, and through micro hardness studies to confirm high-temperut

    Jan 1, 1965

  • AIME
    Institute of Metals Division - The Zirconium-Platinum Alloy System

    By C. Hays, R. E. Swift, E. G. Kendall

    Investigations of the Zr-Pt system, by metallography, incipient melting, and X-ray diffraction, determined the phase relationshifis from 0 to 50 at. pct Pt. Phase fields in the Pt-~ich region were out

    Jan 1, 1962

  • AIME
    Institute of Metals Division - The Zirconium-Rich Corners of the Ternary Systems Zr-Co-O and Zr-Ni-O

    By J. W. Downey, M. V. Nevitt

    The phase boundaries for the 950" isothermal sections in the ternary systems Zr-Co-0 and `Zr-Ni-0 have been determined for the composition range from 50 to 100 at. pct Zr. The two systems show very

    Jan 1, 1962

  • AIME
    Institute of Metals Division - Theoretical Determination of the Slip System with Highest Resolved Shear Stress in a Fcc Crystal for any Orientation of the Tensile Axis (TN)

    By D. R. de Fontaine

    By computing the values of the resolved shear stress for a great many orientations of the tensile axis on all 12 (111) <110> slip systems, Taylor and Elam&apos; were able to map out a stereogram of sl

    Jan 1, 1962

  • AIME
    Institute of Metals Division - Theory of Grain Boundary Migration Rates

    By David Turnbull

    IN isothermal recrystallization processes, new crystals generally grow into the matrix until they impinge upon other new crystals or an external surface, at constant linear rates G. Before impingement

    Jan 1, 1952

  • AIME
    Institute of Metals Division - Theory of Solute Atom Limited Grain Boundary Migration

    By E. S. Machlin

    The alternate processes by which solute atoms can limit the migration of grain boundaries have been considered. At the lowest solute concentrations the controlling process is "mechanical breakaway" in

    Jan 1, 1962

  • AIME
    Institute of Metals Division - Theory of the Influence of Stacking-Fault Width of Split Dislocations on High-Temperature Creep Rate

    By J. Weertman

    An explanation is advanced for the recent results of Barrett and Sherby on the high-temperature creep of fee metals. Their measurements indicate that metals with a low stacking fault energy creep at a

    Jan 1, 1965

  • AIME
    Institute of Metals Division - Thermal Diffusion of Dissolved Hydrogen Isotopes in Iron and Nickel

    By O. D. Gonzalez, R. A. Oriani

    A thermo-osmosis technique has been used to measure the heat of transport, Q* , of hydrogen and of deuterium dissolved in a iron and in nickel, and of hydrogen in Feo.6Nio.4 in the tempevature range

    Jan 1, 1965

  • AIME
    Institute of Metals Division - Thermal Diffusivity of Armco Iron

    By G. D. Cody, D. S. Beers, B. Abeles

    The thermal diffusivity (thermal conductivity divided by specific heat) of Armco iron has been measured over the temperature range 30º to 1025ºC. The results are in good agreement with the thermal di

    Jan 1, 1962

  • AIME
    Institute of Metals Division - Thermal Expansion Characteristics of Stainless Steels Between -300° and 1000°F

    By D. E. Furman

    The thermal coefficients of linear expansion for several stainless steels have been determined over the temperature range from —300° to 1000°F. The steels studied include types 301, 304, 316, 347, 310

    Jan 1, 1951

  • AIME
    Institute of Metals Division - Thermal Expansion of CdS from 26° to 1000°K

    By B. A. Kulp, R. R. Reeber

    Lattice parameters for the wurtzite form of&apos; CdS mere measured by powder X-ray diffraction techniques over the temperature range 26° to 1000 K&apos;. A negative thermal -expansion coefficient was

    Jan 1, 1965

  • AIME
    Institute of Metals Division - Thermal Expansion of Titanium and Some Ti-O Alloys

    By R. J. Wasilewski

    Axial expansion has been determined by X-ray diffraction up to 600° to 760°C in a titanium and four high-oxygen alloys. Expansion data cannot be fitted to the usual quadratic expression and anomali

    Jan 1, 1962

  • AIME
    Institute of Metals Division - Thermal Stability of Cu-SiO2 and CuAl2O3 Alloys

    By Nicholas J. Grant, Noboru Komatsu

    Metallographic and X-ray studies were made of oxide dispersion strengthened Cu-12 vol pet SiO2 and Cu-3.5 vol pet Al2O3 alloys following time exposures at temperatures approaching the melting. point o

    Jan 1, 1962

  • AIME
    Institute of Metals Division - Thermal Stability of the Chromium, Iron, and Tungsten Borides in Streaming Ammonia and the Existence of a New Tungsten Nitride

    By Y. H. Liu, R. Kiessling

    The chromium, iron, and tungsten borides have been treated with ammonia at different temperatures. They are attacked, forming metal nitride and boron nitride, and the results are summarized in the t

    Jan 1, 1952

  • AIME
    Institute of Metals Division - Thermal Variation of Young's Modulus in Some Fe-Ni-Mo Alloys

    By W. C. Ellis, M. E. Fine

    WHEN certain binary Fe-Ni alloys are worked cold and then stabilized by a stress-relief anneal, their Young&apos;s moduli are nearly invariant over a substantial temperature range determined by compos

    Jan 1, 1952

  • AIME
    Institute of Metals Division - Thermodynamic Activities in the Fe-Mn-C System

    By J. F. Butler, H. W. Paxton

    The vapor pressures of manganese in equilibrium with several alloys in the iron-manganese-carbon system between 1200° and 1275°K have been measured using the Knudsen effusion technique in conjunction

    Jan 1, 1962

  • AIME
    Institute of Metals Division - Thermodynamic Activities of Solid Nickel-Aluminum Alloys

    By A. Steiner, K. L. Komarek

    Activities of aluminum in solid Ni-A1 alloys have been determined between 20 and 60 at. pet Al and 1200" and 1400°K by an isopiestic method in which nickel specimens, heated in a temperature gradient,

    Jan 1, 1964

  • AIME
    Institute of Metals Division - Thermodynamic Properties of Solid Fe-Au Alloys

    By L. L. Seigle

    Free energies, heats, and entropies of mixing of solid Fe-Au alloys have been measured by the galvanic cell method between 800° and 900°C. A positive deviation from Raoult&apos;s law and a large exces

    Jan 1, 1957

  • AIME
    Institute of Metals Division - Thermodynamic Properties of Solid Iron-Aluminum Alloys

    By J. Eldridge, K. L. Komarek

    Activities of aluminum in solid Fe-Al alloys have been determined between 0 and 75 at, pct Al and 1100" and 1400°K by an isopiestic method in which iron specimens, heated in a temperature gradient, ar

    Jan 1, 1964