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Institute of Metals - Estimation of Oxygen and Sulfur in Refined Copper (with Discussion)By H. A. Bedworth, W. H. Bassett
The amount of oxygen present in refined copper bears an important relation to the effects of various impurities on physical properties of copper, as well as the effects of reducing gases at higher tem
Jan 1, 1926
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Institute of Metals - Exudations on Copper Castings (with Discussion)By W. H. Bassett, J. C. Bradley
Beads of metal frequently appear at the ends of cast-copper wire bars and on the sides of wedge cakes near the top. These are richer in cuprous-oxide than the rest of the casting. A micrographical stu
Jan 1, 1926
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Institute of Metals - Hardness of Copper, and Meyer’s Analysis (with Discussion)By T. R. Schermerhorn, Samuel L. Hoyt
The hardness of annealed copper has been given in the literature and is easily obtained by any of the standard methods of hardness testing. It is not our intention to correct published values or to ad
Jan 1, 1926
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Institute of Metals - Mechanical Properties of the Aluminum-Copper-Silicon Alloy as Sand Cast and as Heat TreatedBy D. M. Warner, Samuel Daniels
In this paper are given the mechanical properties, determined by the Engineering Division, Air Service, U. S. A., of the 94 per cent. aluminum, 5 per cent. copper, 1 per cent. silicon alloy as 8and-ca
Jan 1, 1926
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Institute of Metals - Microscopic Structure of Copper with DiscussionBy H. B. Pulsifier
The following report on the structure of copper is the result of work done in the laboratory of the Rome Wire Co. early in 1925. Previous work had indicated to the author that excellent results might
Jan 1, 1926
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Institute of Metals - Note on the Relation of Annealing Temperature to Conductivity of Copper Wire (with Discussion)By J. C. Bradley
The relation of annealing temperature to conductivity of copper wire has been determined. Conductivity hard was 98.26 per cent. After a 10-min. heat,ing at 200" C. it was 98.69. By annealing 10 min. a
Jan 1, 1927
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Institute of Metals - Progress in Nonferrous Metals and Alloys During the Past Few YearsBy Earle E. Schumacher, Alexander G. Souden
IN the field of physical metallurgy it is becoming increasingly difficult to keep abreast of the recent develop¬ments since the diversity of investigations is so great and the literature so voluminous
Jan 1, 1938
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Institute of Metals - Special Nickel BrassesBy Oliver Smalley
Except for the work of Guillet, who conducted a systematic investigation on the zinc-replacing value of nickel in brass, and extended his investigation with a view to developing commercial high zinc c
Jan 1, 1926
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Institute of Metals - The Cracking of the Nickel Silvers in the Course of Annealing (with Discussion)By E. O. Jones, E. Whitehead
During the heating of cold-worked nickel silver, the tendcncy of the material to crack is well known. The present research deals with this question, and may conveniently be divided into the following
Jan 1, 1926
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Institute of Metals - The Lead-antimony System and Hardening of Lead Alloys (with Discussion)By Lyall Zickrick, R. S. Dean, F. C. Nix
The first attempt to establish an equilibrium diagram of the lead-antimony series was made by Roland-Gosselinl in 1896. This investigation classified the system as a purely eutectiferous one, with the
Jan 1, 1926
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Institute of Metals ? Metallurgy of Minor Constituents An Important Factor In Recent ProcessBy H. OSBORG
THE patent literature of alloys for the last two decades or so indicates that the number of liatents referring to smaller and smaller percentages of essential alloying constituents is on the increase,
Jan 1, 1937
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Institute of Metals ActiveBy AIME AIME
THE Tuesday afternoon session", H. A. Bedworth chairman and T. S. Fuller, vice-chairman, was opened with D. J. McAdam, Jr.'s paper entitled "The Influence of Cyclic Stress on Corrosion." This pap
Jan 1, 1930
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Institute of Metals and Iron and Steel Divisions Meet at BuffaloBy E. J. KENNEDY
METHODICAL AND EFFECTIVE: thus may be characterized the fall meeting of the Iron and Steel and Institute of Metals Divisions at the Hotel Statler, Buffalo, N. Y., on Oct. 4 and 5. Approximately 200 re
Jan 1, 1932
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Institute of Metals ConvenesTHE Institute of Metals Division opened its series of meetings by a session* on lead, R. S. Dean be-ing in the chair and G. 0. Hiers acting as vice-chairman. A large and representative audience listen
Jan 3, 1928
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Institute of Metals Discusses Varied TopicsBy T. A. Wright
THE-Institute of Metals Division opened on Tuesday afternoon with Wheeler P. Davey as chairman and G. E. Edmunds as vice-chairman. Four papers were on the program, two being of a fundamental character
Jan 1, 1935
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Institute of Metals Division - 475°C (885°F) Embrittlement in Stainless SteelsBy A. J. Lena, M. F. Hawkes
Changes in hardness, tensile properties, microstructure, electrical resistance, and X-ray diffraction effects indicate that lattice strains are necessary for the embrittlement of ferritic stainless st
Jan 1, 1955
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Institute of Metals Division - 475°C Embrittlement of Chromized Coatings on Low Carbon SteelBy W. L. Chu
It was observed that chromized coatings on low carbon steel could be embrittled by cooling slowly through the 475°C range. A higher chromium coating was more susceptible to embrittlement than a lower
Jan 1, 1956
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Institute of Metals Division - [ A =]?ß Transformation in Titanium (TN)THE transformation, in a sample of levitation melted iodide titanium, has been studied with a Leitz hot-stage microscope. The specimen was etched in HF:HNO3: glycerine, (1:1:2) giving a structure s
Jan 1, 1960
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Institute of Metals Division - A Calorimetric Investigation of the Energy Relations in Alloys of Composition Cu3AuBy J. S. Ll. Leach, L. R. Rubin, M. B. Bever
The energies of formation of ordered and disordered solid solutions of composition CusAu and the energy of ordering in this alloy were determined by tin solution calorimetry. The degree of order was m
Jan 1, 1956
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Institute of Metals Division - A Comparison of the Creep-Rupture Properties of Nickel in Air and in VacuumBy P. Shahinian, M. R. Achter
In a comparison of the creep -rupture properties of nickel in air arid in vacuum there is a reversal in relative strengths with variations in stress. At low stresses the properties are better in air
Jan 1, 1960