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Institute of Metals Division - Creep Behavior of Zinc Modified by Copper in the Surface LayerBy Milton R. Pickus, Earl R. Parker
THE modern theories of creep¹-4 in general have been based upon the concept of generation and migration of dislocations, with the generation process normally assumed to be rate controlling. The theori
Jan 1, 1952
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Institute of Metals Division - Creep Characteristics of Some Platinum Metals at 1382°FBy ED. E. Furman, R. H. Atkinson
HITHERTO the practical creep testing of precious metals has received little or no attention. The only previous creep tests of precious metals have been made with wires under conditions such as to yiel
Jan 1, 1952
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Institute of Metals Division - Creep Correlations in Alpha Solid Solutions of AluminumBy O. D. Sherby, J. E. Dorn
SEVERAL years ago Zener and Hollomon1 suggested that the flow stress of metals might be related to the temperature and strain rate in accord with the functional equation: s=s(eeh/rt) [1]
Jan 1, 1953
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Institute of Metals Division - Creep Correlations of Metals at Elevated Temperatures (Discussion page 1318)By R. L. Orr, O. D. Sherby, J. E. Dorn
Creep data for pure metals at temperatures above those at which rapid recovery occurs (above about 0.45 the melting temperature) are correlatable by means of the equations and These correlations were
Jan 1, 1955
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Institute of Metals Division - Creep Deformation of Aluminum-Copper Two-Phase AlloysBy R. M. N. Pelloux
This study of aluminum-copper alloys had two aims: 1) To determine the effect of the amount and distribution of a second phase, CuAl2, on the creep-rupture strength, ductility, and fracture chara
Jan 1, 1960
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Institute of Metals Division - Creep Deformation of Magnesium at Elevated Temperatures by Nonbasal SlipBy H. C. Chang, N. J. Grant, A. R. Chaudhuri
During the creep of coarse-grained polycrystalline magnesium at elevated temperatures, a nonbasal type of slip was found to play an important role in the deformation processes. The nonbasal slip trace
Jan 1, 1956
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Institute of Metals Division - Creep Fracture of Thoriated Nickel (TN)By B. A. Wilcox, A. H. Clauer
DURING the course of an investigation on the high-temperature creep behavior of TD Nickel* (Ni + 2) vol pct ThO2), it was observed that the creep fractures were similar in appearance to low-tempera
Jan 1, 1965
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Institute of Metals Division - Creep of a Dispersion-Hardened Aluminum AlloyBy G. S. Ansell, J. Weertman
The creep behavior of an aluminum alloy hardened with a finely dispersed phase of aluminum oxide was investigated. The as-extruded alloy shows an approximate steady-state creep in which the creed ra
Jan 1, 1960
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Institute of Metals Division - Creep of a Recrystallized Aluminum SAP-Type AlloyBy F. V. Lenel, G. S. Ansell
The creep behavior of an aluminum -aluminum oxide alloy, A T 400, fabricated by compacting an atomized aluminum powder, extruding the compact, cold working, and recrystallizing the extrusion, was inve
Jan 1, 1962
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Institute of Metals Division - Creep of Al-Cu Alloys During Age HardeningBy Ervin E. Underwood
IT has been recognized for many years that dis-persed particles have great value in raising the creep resistance of metallic alloys. In fact, some of the most successful high-temperature alloys owe th
Jan 1, 1958
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Institute of Metals Division - Creep of Copper at Intermediate TemperaturesBy T. E. Tietz, J. E. Dorn
Activation energies for creep of copper at intermediate temperatures, where crystal recovery was negligible, were determined by the simple technique of rapidly alternating the test temperature between
Jan 1, 1957
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Institute of Metals Division - Creep of Indium, Lead, and Some of Their Alloys with Various MetalsBy J. Weertman
High-temperature creep experiments were carried out on indium, lead, and on binary substitutional alloys of In-Pb, In-Sn, In-TI, In-Cd, In-Hg, Pb-Bi, Pb-Sn, Pb-In, and Pb-Cd. The stress at which the
Jan 1, 1961
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Institute of Metals Division - Creep of Polycrystalline NickelBy P. Shahinian, J. Weertman
Minimum creep rates of nickel samples were measured in the stress region of 2.5x107 to 2.8xl0 dyne per sq cm and the temperature region of 400° to 1100°C. The creep rate seems to be proportional to (s
Jan 1, 1957
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Institute of Metals Division - Creep of Polycrystalline TinBy J. E. Breen, J. Weertman
The creep rate of polycrystalline tin was studied as a function of temperature and stress in constant stress experiments. The temperature was varied from room temperature to almost the melting point o
Jan 1, 1956
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Institute of Metals Division - Creep of Single Crystals and Polycrystals Of Aluminum, Lead. and Tin (Discussion p. 1299)By O. D. Sherby, J. E. Dorn, C. D. Wiseman
MCLEAN' has shown that the total strain obtained during creep of aluminum polycrystals arises exclusively from the mechanisms of 1) microscopically observable slip, 2) subgrain tilting, and 3) gr
Jan 1, 1958
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Institute of Metals Division - Creep Properties of Commercially Pure TitaniumBy M. J. Sinnott, W. R. Kiessel
The creep characteristics of commercially pure titanium sheet in the annealed state, cold-worked state, and cold-worked and recovered state in the temperature range from 75' to 750°F have been de
Jan 1, 1954
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Institute of Metals Division - Creep Rupture Properties and Structural changes in Carbon and Low Alloy SteelsBy E. F. Ketterer, D. B. Collyer, A. B. Wilder
The microstructural stability of 59 carbon and low alloy steels after 34,000 hr exposure at 900' and 1050°F, including the weld heat-affected zone, is discussed. The tensile and creep rupture pro
Jan 1, 1955
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Institute of Metals Division - Creep-Rupture by Vacancy CondensationBy E. S. Machlin
The possibility that formation of voids under creep-rupture conditions may take place by the condensation of vacancies has been investigated theoretically. It has been concluded that nucleation of voi
Jan 1, 1957
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Institute of Metals Division - Creep-Rupture Characteristics of Al-Mg Solid-Solution AlloysBy N. J. Grant, A. W. Mullendore
Three aluminum alloys of 0.94, 1.92, and 5.10 pct Mg, prepared from very high purity metals, were tested at 500°, 700°, and 900°F in creep rupture. The degree of strengthening through solid-solu-tion
Jan 1, 1955
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Institute of Metals Division - Creep-Rupture Tests at 1800° and 200°F on Hyper-Pure Silicon Polycrystals (TN)By J. T. Brown
AS far as could be ascertained, no one had previously investigated the creep strength of silicon poly-crystals. Literature has appeared showing evidence for plastic deformation in silicon single cryst
Jan 1, 1960