Add to ORKGA mixture of graphite and scheelite (CaWO4) have been mechanically milled together for 40 h. The resultant powder and an unmilled powder were examined by thermal analysis, isothermal annealing, and X-ray diffraction to determine the effect of milling on the reduction of scheelite to tungsten carbide. The milled powder underwent a rapid reduction reaction at 800°C- 300°C lower than the unmilled powder. The reduction sequence to WC was shown to differ for the two powders with W2C intermediate in the milled powder and W in the unmilled powder. The milled powder showed complete reduction to WC in 1 h at 1,000°C, whereas the unmilled powder was incompletely reduced, even after 1 h at 1,200°C. Separation of the final phases was readily achieved b...
Production of nanostructured WC powders is regarded with difficulties related to excessive crystalli...
Nanostructured scheelite (CaWO4) was synthesized directly from enriched wolframite (Fe1-xMnxWO4) ore...
Nanostructured WC powders which provide fine microstructures after sintering, can significantly impr...
A mixture of scheelite and magnesium has been mechanically milled together for 100 h, either with gr...
Mixtures of scheelite and graphite or carbon black, with different CaWO4:C weight ratios, have been ...
Mixtures of scheelite and carbon black, with different CaWO4:C weight ratios were prepared using eit...
Pure scheelite (CaWO4) and carbon black mixtures, containing 0 or 2 wt% cobalt or nickel were prepar...
The invention relates to a process which allows to obtain powders of tungsten carbide directly from ...
Pure scheelite (CaWO4) and carbon black mixtures, containing either 0–6 wt% cobalt or 0–2 wt% nickel...
A mixture of scheelite and magnesium was mechanically milled for 100 h in an inert atmosphere. The r...
X-ray diffraction phase analysis of samples performed on a DRON-6 diffractometer has shown that the ...
Tungsten carbide (WC) is the most important tungsten compound, and the main component of WC-Co cerme...
Production of nanostructured WC powders is regarded with difficulties related to excessive crystalli...
Nanostructured scheelite (CaWO4) was synthesized directly from enriched wolframite (Fe1-xMnxWO4) ore...
Nanostructured WC powders which provide fine microstructures after sintering, can significantly impr...
A mixture of scheelite and magnesium has been mechanically milled together for 100 h, either with gr...
Mixtures of scheelite and graphite or carbon black, with different CaWO4:C weight ratios, have been ...
Mixtures of scheelite and carbon black, with different CaWO4:C weight ratios were prepared using eit...
Pure scheelite (CaWO4) and carbon black mixtures, containing 0 or 2 wt% cobalt or nickel were prepar...
The invention relates to a process which allows to obtain powders of tungsten carbide directly from ...
Pure scheelite (CaWO4) and carbon black mixtures, containing either 0–6 wt% cobalt or 0–2 wt% nickel...
A mixture of scheelite and magnesium was mechanically milled for 100 h in an inert atmosphere. The r...
X-ray diffraction phase analysis of samples performed on a DRON-6 diffractometer has shown that the ...
Tungsten carbide (WC) is the most important tungsten compound, and the main component of WC-Co cerme...
Production of nanostructured WC powders is regarded with difficulties related to excessive crystalli...
Nanostructured scheelite (CaWO4) was synthesized directly from enriched wolframite (Fe1-xMnxWO4) ore...
Nanostructured WC powders which provide fine microstructures after sintering, can significantly impr...