Reductive decomposition of WO3 precursor powder gives high surface are
a alpha-W at temperatures above 650 degrees C, beta-W at temperatures
below 575 degrees C, and mixtures of alpha-W and beta-W (in various ra
tios) at intermediate temperatures. The carburization behavior of thes
e powders in flowing CO over the temperature range 350 degrees-700 deg
rees C is sensitive to the initial crystalline stare of the powder. Th
e alpha-W powder can be carburized directly to WC phase in an appropri
ately high carbon activity environment, whereas the carburized beta-W
powder becomes trapped in a metastable W2C state. A simple model is pr
esented to account for this difference in carburization behavior of al
pha-W and beta-W phases.