1976
DOI: 10.1007/bf00793571
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Effect of palladium on diffusion processes in the system tungsten-chromium

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1987
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Cited by 15 publications
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“…The use of chromium as a possible alloying element in tungsten, studied here mainly as a possible solution to increase tungsten oxidation resistance, has been previously investigated by other authors. It has been reported that the synthesis of dense W-Cr alloys is difficult due to low interdiffusion coefficients in this system [36] and that the use of a third element such as Pd would be necessary to improve interdiffusion [36][37][38]. However, the presence of palladium dissolves rather large amounts of tungsten and chromium, making the whole system more complex [39].…”
Section: Introductionmentioning
confidence: 99%
“…The use of chromium as a possible alloying element in tungsten, studied here mainly as a possible solution to increase tungsten oxidation resistance, has been previously investigated by other authors. It has been reported that the synthesis of dense W-Cr alloys is difficult due to low interdiffusion coefficients in this system [36] and that the use of a third element such as Pd would be necessary to improve interdiffusion [36][37][38]. However, the presence of palladium dissolves rather large amounts of tungsten and chromium, making the whole system more complex [39].…”
Section: Introductionmentioning
confidence: 99%
“…Evans [5] suggested that a Pd rich phase containing Cr segregates at the surface in the Cr depleted layer and it inhibits inward diffusion of oxygen. Dzykovich et al [14] coated tungsten by 1μm of Pd and 50 µm of Cr. After annealing at 1250˚C they found diffusion of Cr into the tungsten to a distance larger by a factor of 5-10 relative to tungsten coated by Cr alone.…”
Section: Introductionmentioning
confidence: 99%
“…Studies performed on binary alloys of W with Ti (0-5%), Nb (0-25%), Mo (0-5%), Ta (0-15% and 25-50%), Cr (0-50%) or Zr (0-15%) as alloying element have shown that these alloys exhibit oxidation resistance superior to that of pure W. 6,7 Among these alloys, the W-Cr alloys have been found to possess the highest resistance to oxidation, and the minimum concentration of Cr required for formation of protective oxide scale is 50 at-%. 6 However, sintering of the W-Cr alloys without adding low melting sintering activators such as Pd and Ni is quite difficult, [8][9][10] because interdiffusion in the W-Cr alloys is very slow at high temperatures. 8 Itagaki and Yoda 11,12 have studied sintering and oxidation behaviour of the W-(28?19-46?47) at-%Cr alloys containing (0?14-2?27) at-%Pd or Ni.…”
Section: Introductionmentioning
confidence: 99%
“…6 However, sintering of the W-Cr alloys without adding low melting sintering activators such as Pd and Ni is quite difficult, [8][9][10] because interdiffusion in the W-Cr alloys is very slow at high temperatures. 8 Itagaki and Yoda 11,12 have studied sintering and oxidation behaviour of the W-(28?19-46?47) at-%Cr alloys containing (0?14-2?27) at-%Pd or Ni. They have reported that Pd is more effective in enhancing the sinter density than Ni.…”
Section: Introductionmentioning
confidence: 99%