THERMAL PLASMA TREATMENT OF TITANIUM CARBIDE POWDERS .2. IN-FLIGHT FORMATION OF CARBON-SITE VACANCIES AND SUBSEQUENT NITRIDATION IN TITANIUM CARBIDE POWDERS DURING INDUCTION PLASMA TREATMENT

The in-flight modification of titanium carbide powders was carried out in radio-frequency (rf) inductively coupled plasmas. The powders were partially melted and evaporated, and then subjected to modifications in morphology, size, and chemical composition. Both the Ar-H-2 and Ar- N-2 plasma treatments induced the formation of carbon-site vacancies i n titanium carbide. The mixing of NH3 to Ar-H-2 plasma at the plasma t ail, and the Ar-N-2 plasma treatment resulted in the partial substitut ion of carbon by nitrogen. The variation in physical and chemical modi fication was discussed compared with the predictions by the thermochem ical analysis, and the numerically obtained heat transfer of our prece ding paper.