Results 261 to 270 of about 696,846 (316)
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High Temperature Superconducting Oxide Films
IEEE Transactions on Components, Hybrids, and Manufacturing Technology, 1988The authors used sputter deposition with single oxide targets and metal molecular beam epitaxy to prepare thin films of the high-T/sub c/ oxide Y-Ba-Cu-O superconductor. The processing parameters, the structural characteristics, and the transport properties of the films are reported. The authors also discuss the microstructures of superconducting Y/sub
M. Hong, J. Kwo, C.H. Chen
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High temperature oxidation of Al4C3
Corrosion Science, 2020Abstract Currently, high temperature corrosion resistant materials rely on the formation of an external surface oxide layer. This work is the first step in exploring an alternative coating concept in which one continuous phase in a two phase carbide–metallic binder coating system, preferentially oxidises internally within the composite.
S. Matthews, Ian W.M. Brown
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High-temperature reactions of phenyl oxidation
Symposium (International) on Combustion, 1994The reactions of phenyl radicals with molecular and atomic oxygen have been studied in the temperature range 900–1800 K behind reflected shocks. The total pressure ranged from 1.3 to 2.5 bar. Phenyl radicals were generated by the fast thermal decomposition of nitroso- or iodobenzene.
Frank, P. +3 more
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High temperature oxidation of Co-Mn alloys
Corrosion Science, 1979Abstract The oxidation of cobalt-manganese alloys in the range 0–45 wt%Mn corresponding to the stability of the α-phase of cobalt has been studied in the range 750–950°C as an example of binary alloys producing solid solution scales. The alloys oxidize according to a parabolic rate law with a rate constant intermediate between those of the pure ...
F. Gesmundo, P. Nanni, D.P. Whittle
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Oxidation in High Temperature Petrogenesis
American Journal of Science, 1961A study has been made of a variety of metamorphic and magmatic rocks to determine how oxidative processes are reflected in their mineral assemblages. In this study particular attention is paid to solid solutions. Field and experimental evidence agree with theory as to the responses of ferromagnesian solid solution to compositional changes of the ...
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The high-temperature oxidation of aldehydes
Symposium (International) on Combustion, 1971Studies of the oxidation of aldehydes have given the velocity constants k1=0.013 and 0.076 liter mole−1 sec−1 for HCHO and C2H5CHO, respectively, and k4=1.36×106, 1.82×106, 2.41×106 liter mole−1 sec−1, for HCHO, C2H5CHO, and n-C3H7CHO, respectively, at 440°C, on the assumption that k5=1.8×109. These are preliminary values which may be modified slightly
R.R. Baldwin +4 more
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2016
High-temperature oxidation (HTO) of metals and alloys is a scale-forming oxidation process in gaseous environments. HTO is influenced by metal temperature, gas composition, exposure time, and pressure, and it may be characterized by weight gain, thickness reduction (penetration), and rate of oxide thickness growth, which is a measure of the rate of ...
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High-temperature oxidation (HTO) of metals and alloys is a scale-forming oxidation process in gaseous environments. HTO is influenced by metal temperature, gas composition, exposure time, and pressure, and it may be characterized by weight gain, thickness reduction (penetration), and rate of oxide thickness growth, which is a measure of the rate of ...
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Dimensionality of high temperature superconductivity in oxides
Physica Scripta, 1989Many models have been proposed to account for the high temperature superconductivity observed in oxide systems. Almost all of these models proposed are based on the uncoupled low dimensional carrier Cu-O layers of the oxides. Results of several experiments are presented and discussed.
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High temperature oxidation of Ni2AlTi
Journal of Materials Science, 1989The isothermal oxidation process in bulk and powdered Ni2AlTi (L21 structure) has been studied in the temperature range of 600 to 1200° C in air by means of X-ray diffraction and scanning electron microscopy. At 900 and 1200° C, the transient oxides, NiO and TiO2 were formed in the initial stage on the outer surface.
C. C. Lee, P. Shen
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High-temperature oxidation of rhodium
Oxidation of Metals, 1990The oxidation kinetics of Rh were measured in air at 1 atm. in the temperature range 600–1000°C. The oxidation weight gain proceeds logarithmically at the lower temperatures (600°C, 650°C) followed by a transition to power law behavior at the higher temperatures (≥800°C). The logarithmic growth kinetics result from thickening of a hexagonal Rh2O3 scale.
L. A. Carol, G. S. Mann
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