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  • AIME
    Institute of Metals Division - Titanium-Chromium-Oxygen System

    By N. J. Grant, C. C. Wang

    The Ti-Cr-O ternary system has been studied in detail near the titanium-rich corner within the limits of 10 wt pct 0, and 20 wt pct Cr. Studies were extended, but not in detail, to the region beyond 2

    Jan 1, 1955

  • AIME
    Institute of Metals Division - Titanium-Copper Binary Phase Diagram

    By C. F. Floe, N. J. Grant, A. Joukainen

    A CCORDING to Guertler,¹ Smith and Hamilton were the first to study the Cu-Ti alloy system, but because of the presence of large amounts of impurities their data are inconclusive. Hensel and Larsen²

    Jan 1, 1953

  • AIME
    Institute of Metals Division - Titanium-Lead System

    By P. Farrar, H. Margolin

    The Ti-Pb diagram was investigated in the region 0 to 58 pct Pb and from 500°C to liquidus temperatures. Three reactions were encountered: I—ß?a+Ti Pb at 725 10°C; 2—ß+L?Ti4Pb at 1305+ 10°C; and 3—the

    Jan 1, 1956

  • AIME
    Institute of Metals Division - Titanium-Manganese System (Discussion page 1566)

    By R. I. Jaff, H. R. Ogden, D. J. Maykuth

    A phase diagram for alloys containing from 0 to 66.9 pct Mn was determined. Two compounds, tentatively labeled 6 and y, were found in this range. The 6 compound is located at about 66.9 pct Mn and mel

    Jan 1, 1954

  • AIME
    Institute of Metals Division - Titanium-Molybdenum-Oxygen System

    By Paul A. Farrar, Louis P. Stone, Harold Margolin

    The Ti-Mo-0 system was investigated in the region 0 to 45 wt pet Mo and 0 to 10 wt pet 0, from 600° to 1400°C. Solidus data are also presented. Isothermal sections at 700°, 900°, 1100°, and 1300°C, an

    Jan 1, 1957

  • AIME
    Institute of Metals Division - Titanium-Nickel Phase Diagram

    By J. P. Nielsen, H. Margolin, E. Ence

    The Ti-Ni phase diagram has been investigated up to 68 pct Ni with iodide titanium base alloys by metallographic, X-ray, and melting point methods, and from 68 to 90 pct Ni by examination of as-cast s

    Jan 1, 1954

  • AIME
    Institute of Metals Division - Titanium-Rich Corner of the Ti-Al-V System (Discussion, p. 1420a)

    By H. D. Kessler, F. A. Crossley, J. J. Rausch

    The titanium-rich corner of the system Ti-AI-V has been studied to determine the phase relationships in the temperature interval 600° to 1200°C. Metallographic examination of long time isothermally an

    Jan 1, 1957

  • AIME
    Institute of Metals Division - Titanium-Rich Regions of the Ti-C-N, Ti-C-O, and Ti-N-O Phase Diagrams

    By L. Stone, H. Margolin

    The Ti-C-N and Ti-C-O systems were investigated in the temperature range from 500° to 1400°C and in the composition range up to 2 pct C and 5 pct N or 0. Characteristic isothermal sections at 800°, 90

    Jan 1, 1954

  • AIME
    Institute of Metals Division - Titanium-Tungsten and Titanium-Tantalum Systems

    By R. I. Jaffee, H. R. Ogden, D. J. Maykuth

    Phase diagrams for the Ti-W and Ti-Ta systems were determined. The Ti-W system is characterized by a wide, two-phase region of ß plus tungsten which is derived from a peritectic reaction between the l

    Jan 1, 1954

  • AIME
    Institute of Metals Division - Torsional After-Effect Measurement and Applications to Aluminum

    By P. M. Aziz, I. Markson, C. S. Barrett

    The abnormal after-effect in twisted wires that occurs when untwisting is interrupted by etching con be brought under control and used to study the mechanical properties of thin surface films and how

    Jan 1, 1954

  • AIME
    Institute of Metals Division - Torsional Deformation of Aluminum and Magnesium Single Crystals

    By C. W. Allen, B. D. Cullity, H. S. Choi

    The torsional deformation of aluminum and magnesium crystals is investigated, with particular reference to the dependence of proportional limit on crystal orientation. The proportional limit is foun

    Jan 1, 1963

  • AIME
    Institute of Metals Division - Torsional Deformation of Iron Single Crystals

    By C. W. Allen, B. D. Cullity

    The proportional limit of iron crystals in torsion is governed by the resolved shear stress in the most highly stressed slip systems, averaged around the specimen circumference, and does not obey a cr

    Jan 1, 1963

  • AIME
    Institute of Metals Division - Transformation Characteristics of a Lithium-Magnesium Alloy

    By C. S. Barrett, D. F. Clifton

    THE transformation that occurs in lithium and its solid solutions containing magnesium1,2 is similar in many respects to other diffusionless transformations of the martensitic type. This general simil

    Jan 1, 1951

  • AIME
    Institute of Metals Division - Transformation in Cobalt-Nickel Alloys

    By J. B. Hess, C. S. Barrett

    TO reach equilibrium between different phases in cobalt-rich alloys requires prohibitively long annealing cobalt-richalloystimes when temperatures are below about 700°C. The fact that a transformation

    Jan 1, 1953

  • AIME
    Institute of Metals Division - Transformation Kinetics and Mechanical Properties Of Zr-Mo Alloys

    By R. F. Domagala

    SOME of the results of a program designed to study the kinetics of transformation and related mechanical properties of prototype Zr-X binary alloys systematically are presented here. The object of thi

    Jan 1, 1958

  • AIME
    Institute of Metals Division - Transformation Kinetics in High-Purity Iron and Some Iron Binary Alloys

    By G. A. Mancini, V. Bharucha, J. W. Spretnak, G. W. Powell

    The characteristics of the motion of the a interface during the "down" transformation was studied in zone-refined iron and dilute binary alloys containing nickel and molybdenum by means of the therm

    Jan 1, 1962

  • AIME
    Institute of Metals Division - Transformation Kinetics in Uranium-Chromium Alloys

    By D. W. White

    The kinetics of isothermal transformation of ß-to-u uranium have been studied over a broad temperature range in alloys containing from 0.3 to 4.0 atomic pct Cr. Two modes of transformation are indicat

    Jan 1, 1956

  • AIME
    Institute of Metals Division - Transformation of Beta-Prime Phase, Au-Zn Alloys at Low Temperatures

    By T. B. Massalski, Horace Pops

    Martensitic transformations were observed by optical metallography and electrical-resistivity measurements during cooling at cryogenic temperatures of the bcc pr-phase Au-Zn alloys. The com-position d

    Jan 1, 1965

  • AIME
    Institute of Metals Division - Transformation of Gamma to Alpha Manganese

    By E. V. Potter

    For a nurnber of years, it has been known that manganese made by electro-deposition under certain conditions is ductile while under other conditions it is very brittle. The ductile metal is gamma mang

    Jan 1, 1950

  • AIME
    Institute of Metals Division - Transformation Twins in Alpha Iron (TN)

    By G. L. Coleman, D. S. Hutton, W. C. Leslie

    The occurrence of twins in a iron, generated during cooling through the ?-a transformation, is well established,1-8 but this phenomenon has been nearly ignored during the past 20 years. It is the purp

    Jan 1, 1960