Results 271 to 280 of about 6,265 (301)
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Consolidation and fabrication of vanadium and vanadium-base alloys
International Metals Reviews, 1980AbstractA review is presented on the current state of technology on the consolidation and fabrication of vanadium and vanadium alloys. Commercial quantities of pure vanadium metal (99.9+%) have been produced by the metallothermic reduction of V2O5 followed by electron-beam refining.
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JOM, 1963
The potential of V alloys for applications above 2000 deg F is described. Mechanical properties are tabulated and reviewed, with major emphasis on the V-Nb alloys. Evaluations of fabricability are considered, and investigations of several oxidation-protection systems, particularly packsiliconizing treatment are detailed. (auth) nium dioxide. (auth)
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The potential of V alloys for applications above 2000 deg F is described. Mechanical properties are tabulated and reviewed, with major emphasis on the V-Nb alloys. Evaluations of fabricability are considered, and investigations of several oxidation-protection systems, particularly packsiliconizing treatment are detailed. (auth) nium dioxide. (auth)
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Thermotransport and diffusion of carbon in vanadium and vanadium-titanium alloys
Journal of the Less Common Metals, 1986Abstract Studies concerning the thermotransport and diffusion of carbon in vanadium and V-Ti alloys were made using a radioactive tracer technique. Thermotransport of carbon is towards the hotter region for all compositions, which corresponds to a negative heat of transport. Its magnitude decreases monotonically with increasing titanium content from −
Mehmet Uz, O.N. Carlson
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Calorimetric Studies of the Behavior of Hydrogen in Vanadium and Vanadium Alloys
Journal of the Physical Society of Japan, 1985Calorimetric measurements have been made on vanadium hydride (and deute-ride) to investigate the origin of excess specific heat due to H(D) atoms and the mechanism of phase transitions. The specific heat in the α phase was found to increase linearly with H(D) concentration at the rate of 2.0±0.1 k B /H atom and 2.4±0.1 k B /D atom at 240°C, nearly ...
Kenji Watanabe, Yuh Fukai
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1991
The phase diagram shown in Fig. 100 is due to [1]. A diagram covering the whole composition range was produced at about the same time by [2]. Although there is good agreement in some respects, there are also considerable differences, especially with regard to melting points, and in view of the authors’ own comments on the small number of samples ...
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The phase diagram shown in Fig. 100 is due to [1]. A diagram covering the whole composition range was produced at about the same time by [2]. Although there is good agreement in some respects, there are also considerable differences, especially with regard to melting points, and in view of the authors’ own comments on the small number of samples ...
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Application of vanadium and vanadium alloys to a fusion reactor blanket
Journal of Nuclear Materials, 1984Abstract Vanadium and vanadium alloys are of interest in fusion reactor blanket applications due to their low induced radioactivity and outstanding elevated temperature mechanical properties during neutron irradiation. The major limitation to the use of vanadium is its sensitivity to oxygen impurities in the blanket environment, leading to oxygen ...
J. Bethin, A. Tobin
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Alloying and impurity effects in vanadium-base alloys
Journal of Nuclear Materials, 1986Abstract Vanadium-base alloys offer a number of significant advantages over other alloy systems for fusion reactor structural applications. However, the properties and performance of vanadium are strongly influenced by the choice of alloying additions and the presence of impurity elements, and these effects are reviewed in this paper.
D.R. Diercks, B.A. Loomis
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In-Reactor Sodium Corrosion of Vanadium and Vanadium-Titanium Alloys
Nuclear Applications, 1968Vanadium-titanium alloys, exposed to flowing sodium in the EBR-II core suffered small weight losses.
S. Greenberg, C. F. Cheng, W. E. Ruther
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The biological response to titanium and titanium-aluminium-vanadium alloy particles
Biomaterials, 1986T Rae
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