Title :
Vaporization of carbon from Cu-WC contact during arc discharge in vacuum
Author :
Yamamoto, Atsushi ; Kusano, Takashi ; Seki, Tsuneyo ; Okutomi, Tsutomu
Author_Institution :
Power & Ind. Syst. Res. & Dev. Centre, Toshiba Corp., Tokyo, Japan
fDate :
8/1/1999 12:00:00 AM
Abstract :
To identify the components emitted from tungsten carbide (WC) base contact during arc discharge in vacuum, spectroscopic measurements were performed for vacuum arc discharges between Cu, W, C, WC, and Cu-WC contacts. As a result, spectra of C and W which have extremely low vapor pressures were observed as well as that of Cu. To obtain the conclusive evidence of the vaporization of C, W, and Cu, the deposits on the contact holders were also investigated by means of surface analysis methods such as Auger electron spectrometer and X-ray photo-electron spectrometer. The mechanism of simultaneous vaporization of those components with different vapor pressures was discussed by means of thermal analysis. It shows that the superheating of WC at the contact surface could cause the vaporization of carbon
Keywords :
Auger electron spectra; X-ray photoelectron spectra; carbon; copper; plasma-wall interactions; tungsten compounds; vacuum arcs; vaporisation; 0 to 10 ns; 0 to 10000 C; 200 to 600 nm; 294 to 278 eV; 44 to 28 eV; Auger electron spectrometer; C; Cu; Cu contacts; Cu-WC; Cu-WC contact; W; W contacts; WC; WC contacts; X-ray photoelectron spectrometer; arc discharge in vacuum; base contact; carbon; contact holders; contact surface; extremely low vapor pressures; spectroscopic measurements; superheating; surface analysis methods; vacuum arc discharges; vaporization; Arc discharges; Arm; Carbon dioxide; Cathodes; Copper; Optical wavelength conversion; Plasma measurements; Spectroscopy; Surface discharges; Vacuum arcs;
Journal_Title :
Plasma Science, IEEE Transactions on
