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  • AIME
    Institute of Metals Division - Thermodynamics of Transition Metal Alloys: Groups IV, V, and VI Elements

    By Michael Hoch

    The phase diagrams of binary systems of some of the transition elements of Groups IV, V, and VI were used to compute the partial free energies of these elements and the free energy of formation of the

    Jan 1, 1962

  • AIME
    Institute of Metals Division - Thermoelastic and Burst-Type Martensites in Copper- Zinc Beta-Phase Alloys

    By T. B. Massalski, Horace Pops

    The occurrence and the temperature dependence of the athermal martensitic transformation in bcc Cu-Zn ß-phase alloys have been studied by cold-state microscopy, differential thermal analysis, and elec

    Jan 1, 1964

  • AIME
    Institute of Metals Division - Thermomechanical Treatments of the 18 Pct Ni Maraging Steels

    By Charles F. Hickey, Eric B. Kula

    Thermomechanical treatments applied to the maraging steels include a) cold working in the austenitic condition at 650°F, followed by transformation to martensite and aging, b) cold working in the murt

    Jan 1, 1964

  • AIME
    Institute of Metals Division - Thorium-Columbium and Thorium-Titanium Alloy Systems

    By O. N. Carlson, H. A. Wilhelm, H. E. Lunt, J. M. Dickinson

    On the basis of data obtained from microscopic examination, melting observations, cooling curves, X-ray analyses, and resistance measurements, phase diagrams have been proposed for the Th-Cb and Th-Ti

    Jan 1, 1957

  • AIME
    Institute of Metals Division - Three Dimensional Aspects of Dislocations and Substructures in Bulk Zinc Crystals

    By G. S. Tint, M. Herman, V. V. Damiano

    Dislocation arrays and substructures were studied in cadmium doped zinc crystals using a newly devised etching technique. Cadmium precipitates delineating the dislocations were revealed by etching a s

    Jan 1, 1963

  • AIME
    Institute of Metals Division - Ti-36 Pct Al as a Base for High Temperature Alloys

    By H. D. Kessler, Joseph B. McAndrew

    WHEN there is occasion to make structural use of metals at temperatures above 900°C (1652°F), the choice of alloys is severely limited, and those materials which meet special requirements as to densit

    Jan 1, 1957

  • AIME
    Institute of Metals Division - Time Temperature-Transformation Characteristics of Titanium-Molybdenum Alloys

    By D. J. DeLazaro, W. Rostoker, R. E. Riley, M. Hansen

    KNOWLEDGE of the isothermal transformation behavior and the TTT chart method of graphically summarizing such information has been of invaluable aid to the ferrous metallurgist in understanding and dev

    Jan 1, 1953

  • AIME
    Institute of Metals Division - Titanium Binary Alloys

    By O. W. Simmons, L. W. Eastwood, C. M. Craighead

    Binary alloys of titanium with silver, lead, tin, nickel, copper, beryllium, boron, silicon, chromium, molybdenum, manganese, vanadium, iron, and cobalt were studied. One-half-pound ingots of the allo

    Jan 1, 1951

  • AIME
    Institute of Metals Division - Titanium Binary Alloys - Discussion

    By O. W. Simmons, L. W. Eastwood, C. M. Craighead

    H. Schwartzbart and W. F. Brown, Jr.—The authors have divided the effects of recovery on the true stress-true strain curve into two types; metarecovery, which effects only the first part of the curve

    Jan 1, 1951

  • AIME
    Institute of Metals Division - Titanium Rich Region of the Titanium-Aluminum-Vanadium System

    By Paul A. Farrar, Harold Margolin

    The Ti-Al-V system has been delineated from 50 to 100 wt pct Ti and front 600 to 1400°C by X-ray and ntetallographic techniques. Isothermal sections were delineated at 600, 700, 800, 900, 1000, 1100,

    Jan 1, 1962

  • AIME
    Institute of Metals Division - Titanium-Aluminum System

    By E. S. Bumps, H. D. Kessler, M. Hansen

    The titanium-rich end of the Ti-AI phase diagram has been determined to the compound TiAI3 (62.7 pct Al), thus joining the aluminum-rich portion previously investigated by others and completing the di

    Jan 1, 1953

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

    By N. J. Grant, C. F. Flo, F. B. Cuff

    An investigation of the Ti-Cr system has shown the presence of a complete series of solid solutions in the ß phase, with a minimum in the solid us near 50 pct Cr. An intermetallic compound, TiCr2, for

    Jan 1, 1953

  • 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-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 - 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