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Institute of Metals Division - Densification and Kinetics of Grain Growth during the Sintering of Chromium CarbideBy W. G. Lidman, H. J. Hamjian
' I HE fabrication of many materials from powders involves a sintering process. A mass of powder will sinter because of the excess free energy over the same mass in the densified state caused by
Jan 1, 1954
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Institute of Metals Division - Density Changes on Annealing Cold-Worked MolybdenumBy Harry W. Antes
The density changes that occurred on annealing cold-worked poly crystalline molybdenum, over the temperature range of 870" to 1630 SC, were determined. Increases in density were observed for recovery
Jan 1, 1964
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Institute of Metals Division - Density-Pressure Relationships in Powder CompactionBy R. W. Heckel
A method is described whereby the relationship of both the "at-pressure" powder compact density and the "zero-pressure" compact density to the applied pressure may be obtained from continuous measurem
Jan 1, 1962
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Institute of Metals Division - Dependence of Grain Boundary Migration Rates on Driving Force (TN)By R. A. Vandermeer
It is usually assumed that the rate-determining step in the migration of a grain boundary involves the thermally activated transfer of single atoms across the interface. Chemical reaction rate theory
Jan 1, 1965
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Institute of Metals Division - Design for Molybdenum Wire Wound Furnace (TN)By T. P. Papazoglou, N. A. D. Parlee, W. C. Phelps
PRACTICAL designs for good "home made" molybdenum furnaces are hard to find in the literature. The one described briefly below left something to be desired but was good enough to operate as a rathe
Jan 1, 1965
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Institute of Metals Division - Determination of Alpha Zirconium {1121} Twinning Elements Using Grain Boundary RotationsBy L. J. Buteau, R. E. Reed-Hill, W. A. Slippy
In a zirconium {1121} twins tend to have coherelzt boundaries and thus do not usually taper to a point when they intersect a grain boundary. Under the proper conditions, a (1121) twin may deform a b
Jan 1, 1963
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Institute of Metals Division - Determination of Boundary Stresses during the Compression of Cylindrical Powder CompactBy M. E. Shank, J. Wulff
At the present time, the designer of dies for metal powder pressing is handicapped by relative ignorance of stress distribution and frictional effects at the interior surface of the die. Unckell was t
Jan 1, 1950
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Institute of Metals Division - Determination of Interstitial Solid-Solubility Limit in Tantalum and Identification of the Precipitate PhaseBy Dale A. Vaughan, Oliver M. Stewart, Charles M. Schwartz
Solid-solubility limits at 1500°, l000q and 500°C for carbon, nitrogen, and oxygen in high-purity tantalum were determined by X-ray lattice-parameter methods. For carbon, the solubility was found to
Jan 1, 1962
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Institute of Metals Division - Determination of Maximum Terminal Solid SolubilityBy A. S. Yue
It was deemed desirable to obtain an understanding of the vacuum desulfurization process. McKechnie1 has reported that the sulfur content of nickel- and cobalt-base alloys is reduced in vacuo. Ke
Jan 1, 1960
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Institute of Metals Division - Determining Boron Distribution in metals by Neutron ActivationBy Barbara A. Thompson
A previously reported high-resolution method for the location of boron-rich areas in metallurgical and biological specimens was been adapted for general use on a routine basis. The rnetlzod utilizes
Jan 1, 1961
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Institute of Metals Division - Developments in Fatigue, Creep, Age-hardening, Diffusion, Microscopy, Borocarbides, Powders, Electrodeposition, and Die CastingsBy Frances H. Clark
IN wartime, the fabrication and use of metals assumes increased importance, for a modern war of sizable proportions cannot be undertaken with- out a vast supply of this material. Light alloys of alumi
Jan 1, 1940
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Institute of Metals Division - Diffusion and Solubility of Boron in Iron and SteelBy P. E. Busby, C. Wells, M. E. Warga
Fundamental data on the rate of diffusion of boron in austenite and solubility of boron in the a and y phases of iron and steel have been obtained from deboronizing experiments and provide partial exp
Jan 1, 1954
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Institute of Metals Division - Diffusion in a Dilute Iron Alloy During Repetitive Alpha-Gamma Phase TransformationsBy Frank W. Clinard, Oleg D. Sherby
The effect of multiple an transformations on diffusion in a dilute iron alloy was studied. Inter-penetration between iron and an Fe-Co alloy was evaluated, under thermal-cycling conditions chosen so a
Jan 1, 1965
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Institute of Metals Division - Diffusion in Gamma BrassBy Carl F. Lutz, Robert F. Mehl
A layer of brass was formed on 0 brass using a vapor-solid reaction technique. The variation in composition with distance within the phase layer and across the a -ß interface was determined by an el
Jan 1, 1962
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Institute of Metals Division - Diffusion in the Gold-Indium SystemBy J. D. Braun, C. W. Powell
Diffusion between gold and indium at two temperatures below the melting point of indium (155.4oC) was investigated. The major, component of the diffusion zone was determined to be AuIn2; the other,
Jan 1, 1964
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Institute of Metals Division - Diffusion in the Uranium-Niobium (Columbium) SystemBy R. E. Ogilvie, N. L. Peterson
Diffi-lsion measurements were conducted at all compositims in the bcc solid solution of the U-Nb system employing incremental couples at composition intemals of 10 at. pct. Diffusion coefficients were
Jan 1, 1963
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Institute of Metals Division - Diffusion of Oxygen and Nitrogen between Special Interstitial Sites in Solid Solution in YtterbiumBy George Mah, Charles Wert
Internal-friction peaks caused by diffusion of oxygen and nitrogen have been observed in ytterbium. They are thought to be caused by the redistribution, under stress, of strain dipoles around an inter
Jan 1, 1964
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Institute of Metals Division - Diffusion of Silver in Liquid TinBy K. G. Davis, P. Fryzuk
The diffusivity of silver in liquid tin has been determined, using the capillavy-reservoir technique, over the temperature range 250° to 500°C. The new value, D = 2.5 x 10'* exp(-2480/ RT) sq cm
Jan 1, 1965
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Institute of Metals Division - Diffusion of the Elements of the IB and IIB Subgroups in SilverBy F. E. Jaumot, A. Sawatzky
IT as long been recognized that there is a need for accurate systematic data on diffusion in solids. Originally, such data were needed to check existing theories but, more recently, it would appear th
Jan 1, 1958
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Institute of Metals Division - Diffusion of Zinc and Copper in Alpha and Beta BrassesBy R. W. Balluffi, R. Resnick
NUMEROUS investigations of chemical diffusion in a brass have been made and the results are collected in several places.1-3 This work has been mainly concerned with the determination of the chemical d
Jan 1, 1956