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Institute of Metals Division - Secondary Recrystallization Kinetics in Singly Oriented Silicon Iron (Discussion)By T. V. Philip, R. E. Lenhart
C. G. Dunn(General Electric Research Laboratory)— It is well recognized that understanding of the formation of the cube-on-edge texture in annealed commercial cold-rolled Si-Fe strip is important indu
Jan 1, 1962
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Institute of Metals Division - Secondary Recrystallization to (110) [001] by Impurity Inhibition in 1 -Mil Silicon-Iron Strip (TN)By Jean Howard
ALTHOUGH zone melting has found favor in recent years because of its convenience and its faster rate of production of single crystals, the older technique of strain annealing still has a number of adv
Jan 1, 1964
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Institute of Metals Division - Secondary Recrystallization to the (100) [001] or (110) [001] Texture in 3 ¼ Pct Silicon-Iron Rolled from Sintered Compacts (TN)By Jean Howard
ThE formation of the (100) [001) texture in 3-1/4 pct Si-Fe strip was first reported by Assmus ef a1.l in 1957. Since then much experimental work has been carried out with a view to establishing the m
Jan 1, 1964
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Institute of Metals Division - Segregation in Dilute Tin Alloys Displaying Two-Dimensional Cells (TN)By H. Biloni
A metallographic study of solute segregation produced during controlled solidification of Sn-Pb alloys has previously been reported.' It was found that the growth conditions which produced well-d
Jan 1, 1965
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Institute of Metals Division - Segregation of Two Solutes, With Particular Reference to SemiconductorsBy W. G. Pfann
The simultaneous segregation of two solutes during the directional solidification of an ingot is treated mathematically on the basis of simplifying assumptions. Expressions are derived for the differe
Jan 1, 1953
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Institute of Metals Division - Selected Isothermal Sections in the Titanium-Rich Corners of the Systems Ti-Fe-O, Ti-Cr-O, and Ti-Ni-OBy W. Rostoker
Single isothermal sections were constructed for the titonium-rich corners of the systems Ti-Fe-O, Ti-Cr-O, and Ti-Ni-0 with a view to locating the shape and disposition of the ternary intermediate-pha
Jan 1, 1956
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Institute of Metals Division - Self -Diffusion in Alpha Iron During Compressive Plastic FlowBy Ken-ichi Hirano, B. L. Averbach, Morris Cohen, N. Ujiiye
The influence of plastic deformation in compression on the self-diffisivity of a iron has been measured in the temperature range of 742º to 885°C. The diffusivity is enhanced in proportion to the str
Jan 1, 1963
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Institute of Metals Division - Self and Interdiffusion in Liquid Zinc AmalgamsBy R. E. Grace, H. W. Schadler
DARKEN1 has established the theoretical relation between the self-diffusion coefficients and the Boltzmann-MatanO Or interdiffusion coefficient: D is the Boltzmann-Matano or interdiffusion coe
Jan 1, 1960
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Institute of Metals Division - Self-diffusion in Alpha and Gamma IronBy R. F. Mehl, C. E. Birchenall
SINCE Maxwell1 first considered the self-diffusion process in 1872 its importance in the kinetic theory of matter has been recognized. Until the discovery of isotopes in 1913, a direct measurement of
Jan 1, 1951
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Institute of Metals Division - Self-diffusion in Alpha and Gamma Iron - DiscussionBy R. F. Mehl, C. E. Birchenall
R. E. Hoffman and D. Turnbull—The authors have presented evidence which they have interpreted as indicating that the rate of self diffusion is not intrinsically more rapid at grain boundaries than wit
Jan 1, 1951
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Institute of Metals Division - Self-Diffusion in Alpha IronBy R. J. Borg, C. E. Birchenall
The self-diffusion coefficients for a iron have been deternzined between 980° and 1167° K using Fe55 as the tracer. With decreasing temperature the diffusivity was found to decrease more rapidly than
Jan 1, 1961
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Institute of Metals Division - Self-Diffusion in Gamma UraniumBy S. J. Rothman, A. L. Harkness, L. T. Lloyd
Self-diffusion in Y uranium has been measured using U235 as the tracer isotope. The diffusion coefficient fits an Arrhenius-type equation D = 2.33 x 10 -3 exp (- 28,5000/RT) cm2/sec The values
Jan 1, 1961
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Institute of Metals Division - Self-Diffusion in Magnesium Single CrystalsBy P. G. Shewmon
Radioactive MgZA has been used to study the rate of self-diffusion in oriented single crystals of magnesium in the temperature range 468O to 635OC. The diffusion coefficients parallel and perpendicula
Jan 1, 1957
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Institute of Metals Division - Self-Diffusion in Single and Polycrystals Of Zinc at Low TemperaturesBy F. E. Jaumot, R. L. Smith
Self-diffusion in zinc at temperatures below 200°C has been studied using both single crystal and polycrystal samples. Anomalous results were obtained for single crystal samples, the data indicating t
Jan 1, 1957
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Institute of Metals Division - Self-diffusion in Sintering of Metallic ParticlesBy G. C. Kuczynski
Two particles in mutual contact form a system which is not in thermo-dynamical equilibrium, because its total surface free energy is not a minimum. If such a system is left for a certain period of tim
Jan 1, 1950
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Institute of Metals Division - Self-Diffusion in Solid ChromiumBy W. C. Hagel
Previous inuestigators have repovted unusually low H* and Do values for self-dzf@szon in certazn bcc metals, e.g., chromium nnd y -uvanium. It has been postulated that this is nn experimental crl -tet
Jan 1, 1962
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Institute of Metals Division - Self-Diffusion in Solid NickelBy R. E. Hoffman, R. A. Ward
The self-diffusion coefficient in high purity nickel has been measured over the temperature range 870' to 1248°C. The results are described by the relation D = 1.27 exp[—-66,800/RT 1cm2ec-1. The
Jan 1, 1957
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Institute of Metals Division - Self-Diffusion in Tin Single CrystalsBy J. D. Meakin
The self-diffusion coefficients of ß tin have been deterttlltled using a plating and sectioning technique. The principal diffusivities pavallel and perpendicu1ar to the "c" axis are given by the Arr
Jan 1, 1961
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Institute of Metals Division - Self-Diffusion of Iron In AusteniteBy H. W. Mead, C. E. Birchenall
SELF-DIFFUSION of iron in austenite is a process which may play a significant role in some of the practically important reactions which occur in solid irons and steels. It also provides a system in wh
Jan 1, 1957
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Institute of Metals Division - Self-Diffusion of Iron in Iron Oxides and the Wagner Theory of OxidationBy L. Himmel, R. F. Mehl, C. E. Birchenall
The rates of self-diffusion of iron in artifically prepared wustites of various compositions have been determined using the decrease in surface activity technique. Similar measurements are reported fo
Jan 1, 1954