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Institute of Metals Division - Quantity and Form of Carbides in Austenitic and Precipitation Hardening Stainless SteelsBy J. H. Waxweiler, L. C. Ikenberry, R. J. Bendure
Carbon which is present as insoluble carbides in austenitic stainless steels can be measured quantitatively by dissolving the steel in iodine-methanol and analyzing the residue for carbon. Severe sen-
Jan 1, 1962
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Institute of Metals Division - Quaternary Alloys of TitaniumBy O. W. Simmons, L. W. Eastwood, C. M. Craighead
Eighty-four quaternary titanium-base alloys from the following systems were investigated: 1. Titanium-chromium-carbon-nitrogen. 2. Titanium-chromium-carbon with copper, vanadium, molybdenum, m
Jan 1, 1951
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Institute of Metals Division - Rapid Freeze Method for Growth of Bismuth Single CrystalsBy Sidney Fischler
Large striation-free single crystals of bismuth have been grown from the melt by rapid freezing. Zone-refined bismuth, together with doping impurities if desired, is placed in a shallow flat-bottomed
Jan 1, 1964
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Institute of Metals Division - Rapid Phase Transformations in Titanium Induced by Pulse HeatingBy Robert Parker
Measurements of the latent heat of transformation from a to 0 titanium were made using a pulse-heating technique. Rapid heating was accomplished electrically by discharging a low-inductance capci-tor
Jan 1, 1965
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Institute of Metals Division - Rapid Quenching of Liquid AlloysBy Dol Duwez, R. H. Willens
A technique is described by which metastable alloy phases can be obtained by very rapid cooling from the liquid state. The results obtained so far have lead to; 1) extension of solubility limits beyo
Jan 1, 1963
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Institute of Metals Division - Rapid Tempering of High Speed SteelBy A. E. Powers, J. F. Libsch
THE simultaneous influence of time and temperature upon the tempering process in steel is well known. Hollomon and Jaffe¹ have expressed the effect of time and temperature upon the progress of temperi
Jan 1, 1952
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Institute of Metals Division - Rare-Earth Gallium Compounds Having the Aluminum-Boride Structure (TN)By S. E. Haszko
SEVERAL new XGa2 intermetallic compounds, Table 1, where X is a rare earth, having the AlB, structure were prepared as part of a continuing study of the magnetic and structural properties of rare-eart
Jan 1, 1962
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Institute of Metals Division - Rate of Formation of Isothermal Martensite in Fe-Ni-Mn AlloyBy R. E. Cech, J. H. Hollomon
KURDJUMOV and Maksimova reported experiments with manganese steels and high carbon steels' and with an Fe-Ni-Mn alloy' in which mar-tensite was formed isothermally over a range of temperatur
Jan 1, 1954
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Institute of Metals Division - Rate of Propagation of MartensiteBy R. F. Mehl, R. F. Bunshah
A fast amplifier technique has been developed for the measurement of the rate of propagation of martensite in an Fe-29.5 pct Ni alloy. The time of formation of one plate of martensite is 3x10 sec and
Jan 1, 1954
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Institute of Metals Division - Rate of Self-Diffusion in Polycrystalline MagnesiumBy P. G. Shewmon, F. N. Rhines
THE determination of the self-diffusion coefficient of magnesium has been made possible recently by discovery1-1 of a radioactive isotope, Mg28 having a half-life of 21.3 hr,1 and subject to manufactu
Jan 1, 1955
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Institute of Metals Division - Rate of Sintering of Copper Under a Dead LoadBy H. S. Cannon, F. N. Rhines
The application of a static load to a copper powder compact during sintering at an elevated temperature accelerates the rate of sintering in such a way that a given load induces the same proportional
Jan 1, 1952
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Institute of Metals Division - Rates of Growth of Cementite in Hypereutectoid SteelsBy R. W. Heckel, H. W. Paxton
The growth of grain boundary films and Widmanstiitten plates of proeutectoid cementite in hypereutectoid steels ulas considered quantitatively in three plain carbon steels and one "pure" iron-carbon a
Jan 1, 1961
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Institute of Metals Division - Re-Examination of Ti-Fe and Ti-Fe-O Phase Relations (Discussion, p. 1417)By Elmars Ence, Harold Margolin
The Ti-Fe and Ti-Fe-0 systems were re-examined because of the controversy regarding the existence of Ti2Fe, and to consider all available data points to the existence of Ti,Fe. The Ti-Fe-0 system cont
Jan 1, 1957
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Institute of Metals Division - Recovery and Recrystallization in BrassBy B. L. Averbach
Recovery and primary recrystalliza-tion in cold worked metals are usually considered as two competing processes. Some of the effects which usually accompany recovery are: alleviation of stress corrosi
Jan 1, 1950
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Institute of Metals Division - Recovery in Single Crystals of ZincBy J. Washburn, R. Drouard, E. R. Parker
Temperature dependence of the rate of recovery in zinc single crystals after a simple shear deformation at low temperature was investigated. Some tentative suggestions regarding the annealed and strai
Jan 1, 1954
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Institute of Metals Division - Recovery of Creep-Resistant SubstructuresBy Louis Raymond, John E. Dorn
The object of this investigation was to analyze the recovery that arises when the stress on a specimen undertaking creep is reduced. For this purpose annealed specimens of high-purity aluminum were p
Jan 1, 1964
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Institute of Metals Division - Recovery of Decarburized Mild SteelBy H. L. Couch, J. D. Lubahn
In decarburized mild steel, the strain hardening arising from 1/2 pct strain can he partly recovered by subsequent heating, even though re crystallization or grain growth does not occur. This recove
Jan 1, 1960
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Institute of Metals Division - Recovery of the High-Temperature Creep Properties of Polycrystalline AluminumBy W. D. Ludemann, J. E. Dor, L. A. Shepard
Recovery of the creep resistance of 99.99 pct pure Al was studied at temperatures 540°, 573°, 600°, and 611°K. Poly-crystalline specimens crept under a stress of 950 psi to a strain of 5.5 pct were al
Jan 1, 1961
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Institute of Metals Division - Recrystallization and Microstructure of Aluminum-Killed Deep Drawing SteelBy R. L. Rickett, S. H. Kalin, J. T. Mackenzie
Aluminum killed low carbon steel, § which is now used extensively for severe deep drawing or other difficult forming operations, is unusual in that its grain structure, after cold reduction and box an
Jan 1, 1950
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Institute of Metals Division - Recrystallization and Stored EnergyBy H. P. Leighly, J. W. Marx, H. L. Walker
A relationship between recrystallized grain size and prior deformation is predicted from elementary statistical considerations, and reasonable agreement with experiment is obtained. RECRYSTALLIZATI
Jan 1, 1954