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Technical Papers and Discussions - Miscellaneous Metals and Alloys - The Melting of Molybdenum in the Vacuum Arc (Metals Tech., Sept. 1946, T. P. 2052, with discussion)By John L. Ham, Robert M. Parke
The melting point of molybdenum is 2625° + 50°C. Heretofore the metal has been considered too refractory to be melted in commercial quantities; hence, it has been formed into rod, wire, and sheet by t
Jan 1, 1947
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Technical Papers and Discussions - Miscellaneous Metals and Alloys - Vicalloy-A Workable Alloy for Permanent Magnets (Metals Tech., Feb. 1946, T. P. 1973)By E. A. Nesbitt
The important permanent-magnet alloys 15 years ago contained carbon and depended upon it for their permanent-magnet properties. In recent years great advances have been made in a number of new alloys
Jan 1, 1946
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Technical Papers and Discussions - Miscellaneous Metals and Alloys - Vicalloy-A Workable Alloy for Permanent Magnets (Metals Tech., Feb. 1946, T. P. 1973)By E. A. Nesbitt
The important permanent-magnet alloys 15 years ago contained carbon and depended upon it for their permanent-magnet properties. In recent years great advances have been made in a number of new alloys
Jan 1, 1946
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Technical Papers and Discussions - Ore Reduction and Slags - An Electrochemical Study of the Properties of Molten Slags of the System CaO-SiO2 and CaO-Al2O3-SiO2 (Metals Tech., Oct. 1946, T. P. 2101, with discussion)By G. Derge, Lo Ching Chang
The chemical and physical propertties of slag systems are of special interest to metallurgists, for nearly all metals are in contact with molten slags during the primary reduction from their ores and
Jan 1, 1948
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Technical Papers and Discussions - Ore Reduction and Slags - An Electrochemical Study of the Properties of Molten Slags of the System CaO-SiO2 and CaO-Al2O3-SiO2 (Metals Tech., Oct. 1946, T. P. 2101, with discussion)By G. Derge
The chemical and physical propertties of slag systems are of special interest to metallurgists, for nearly all metals are in contact with molten slags during the primary reduction from their ores and
Jan 1, 1948
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Technical Papers and Discussions - Ore Reduction and Slags - The Identification of CaO-MgO Orthosilicate Crystals, Including Merwinite 3CaO.MgO.- 2Si02, through the Use of Etched Polished Sections (Metals Tech., June 1947, T.P. 2167, with diBy R. B. Snow
This paper describes a technique of polishing and etching specimens of open-hearth furnace slags or hearth aggregates for identification of the crystalline constituents —lime (CaO), tricalcium silicat
Jan 1, 1948
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Technical Papers and Discussions - Ore Reduction and Slags - The Identification of CaO-MgO Orthosilicate Crystals, Including Merwinite 3CaO.MgO.- 2Si02, through the Use of Etched Polished Sections (Metals Tech., June 1947, T.P. 2167, with diBy R. B. Snow
This paper describes a technique of polishing and etching specimens of open-hearth furnace slags or hearth aggregates for identification of the crystalline constituents —lime (CaO), tricalcium silicat
Jan 1, 1948
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Technical Papers and Discussions - Ore Reduction and Slags - The Rate of Reduction of Geneva Iron Ore (Metals Tech., June 1947, T. P. 2177, with discussion)By J. R. Lewis
During the past few years there has been considerable interest in the sizing and the preparation of the iron ore fed into blast furnaces. Furnacemen know that proper sizing of ore tends to increase th
Jan 1, 1948
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Technical Papers and Discussions - Ore Reduction and Slags - The Rate of Reduction of Geneva Iron Ore (Metals Tech., June 1947, T. P. 2177, with discussion)By J. R. Lewis
During the past few years there has been considerable interest in the sizing and the preparation of the iron ore fed into blast furnaces. Furnacemen know that proper sizing of ore tends to increase th
Jan 1, 1948
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Technical Papers and Discussions - Physical Metallurgy - Application of Electron Microscope to Study of Aluminum Alloys ( Metals Technology, April 1944)(With discussion)By A. H. Geisler, F. Keller
Some of the important changes that take lace in the structure of aluminum alloys are largely submicroscopic in character. This is especially true of the changes that accompany age-hardening and recrys
Jan 1, 1944
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Technical Papers and Discussions - Physical Metallurgy - Application of Electron Microscope to Study of Aluminum Alloys ( Metals Technology, April 1944)(With discussion)By F. Keller, A. H. Geisler
Some of the important changes that take lace in the structure of aluminum alloys are largely submicroscopic in character. This is especially true of the changes that accompany age-hardening and recrys
Jan 1, 1944
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Technical Papers and Discussions - Physical Metallurgy - Diffusion of the Stable Isotopes of Nickel in Copper (Metals Tech., June 1946, T. P. 2007, with discussion)By William A. Johnson
The mathematical analysis of diffusion curves in solid metals is carried out ordinarily by analogy with the flow of heat in a continuous medium and no account is taken of the fact that the materials i
Jan 1, 1946
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Technical Papers and Discussions - Physical Metallurgy - Diffusion of the Stable Isotopes of Nickel in Copper (Metals Tech., June 1946, T. P. 2007, with discussion)By William A. Johnson
The mathematical analysis of diffusion curves in solid metals is carried out ordinarily by analogy with the flow of heat in a continuous medium and no account is taken of the fact that the materials i
Jan 1, 1946
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Technical Papers and Discussions - Physical Metallurgy - Factors Affecting Rates of Work-hardening in Primary Substitutional Solid Solutions (Metals Technology, April 1944) (With discussion)By J. H. Frye, C. P. Sun
A Frimary substitutional solid solution is a solution that has the same crystalline structure as the solvent metal, and in which solute atoms have replaced, solvent atoms at random on the host lattice
Jan 1, 1944
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Technical Papers and Discussions - Physical Metallurgy - Factors Affecting Rates of Work-hardening in Primary Substitutional Solid Solutions (Metals Technology, April 1944) (With discussion)By J. H. Frye, C. P. Sun
A Frimary substitutional solid solution is a solution that has the same crystalline structure as the solvent metal, and in which solute atoms have replaced, solvent atoms at random on the host lattice
Jan 1, 1944
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Technical Papers and Discussions - Physical Metallurgy - Young's Modulus-Its Metallurgical Aspects (Metals Tech., Dec. 1945, T. P. 1936, with discussion)By David J. Mack
A survey and critical appraisal of published information about Young's modulus was originally made by the writer because of a complete lack of information about this very important quantity in wo
Jan 1, 1946
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Technical Papers and Discussions - Powder Metallurgy - Density Relationships of Iron-powder Compacts (Metals Tech., April 1947, T. P. 2165, with discussion)By Alexander Squire
One of the principal factors that have contributed to the hesitancy of design engineers to use metal-powder parts is the difficulty experienced in the determination of the mechanical properties of com
Jan 1, 1947
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Technical Papers and Discussions - Powder Metallurgy - Density Relationships of Iron-powder Compacts (Metals Tech., April 1947, T. P. 2165, with discussion)By Alexander Squire
One of the principal factors that have contributed to the hesitancy of design engineers to use metal-powder parts is the difficulty experienced in the determination of the mechanical properties of com
Jan 1, 1947
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Technical Papers and Discussions - Powder Metallurgy - Introduction to Seminar-Review of Literature on Pressing of Metal Powders (Metals Tech., Aug. 1947, T.P. 2236, with discussion)By Richard Paul Seelig
The following review covers published information on pressing of metal powders at room temperature. Only those operations are considered which occur between the time the powder is filled into the cavi
Jan 1, 1947
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Technical Papers and Discussions - Powder Metallurgy - Introduction to Seminar-Review of Literature on Pressing of Metal Powders (Metals Tech., Aug. 1947, T.P. 2236, with discussion)By Richard Paul Seelig
The following review covers published information on pressing of metal powders at room temperature. Only those operations are considered which occur between the time the powder is filled into the cavi
Jan 1, 1947