Reactive gas-controlled arc process

Author

Rogozin, A.F. ; Fontana, R.P.

Author_Institution

Multi-Arc Inc., Rockaway, NJ, USA

Volume

2

fYear

1996

fDate

21-26 Jul 1996

Firstpage

957

Abstract

There are many methods of particle reduction in the cathodic vacuum arc deposition process: film deposition by filtered arc, magnetic steering. Unfortunately, they are rather complicated and almost not practical for industrial application. We would like to suggest a method to reduce macroparticles, increase the deposition rate and improve the coating quality. This method is based on creation of emission-active phases on the cathode surface and changing the melting point of surface layers of the cathode material and its work function. A comparison of coating smoothness, deposition rate, micro hardness and adhesion between reactive gas controlled arc (RGCA) and the regular process was made. Optical emission spectroscopy was used for investigation of changes in the plasma generation process

Keywords

Auger effect; adhesion; cathodes; electron spectroscopy; melting point; microhardness; plasma deposited coatings; plasma deposition; plasma production; vacuum deposited coatings; vacuum deposition; Auger electron spectroscopy; adhesion; cathode surface; cathodic vacuum arc deposition process; coating quality improvement; coating smoothness; deposition rate increase; emission-active phases; film deposition; filtered arc; macroparticles reduction; magnetic steering; micro hardness; optical emission spectroscopy; plasma generation process; reactive gas-controlled arc process; surface layers melting point; work function; Adhesives; Cathodes; Coatings; Magnetic films; Magnetic separation; Optical films; Optical materials; Phase change materials; Stimulated emission; Vacuum arcs;

fLanguage

English

Publisher

ieee

Conference_Titel

Discharges and Electrical Insulation in Vacuum, 1996. Proceedings. ISDEIV., XVIIth International Symposium on

Conference_Location

Berkeley, CA

Print_ISBN

0-7803-2906-6

Type

conf

DOI

10.1109/DEIV.1996.545506

Filename

545506