Title :
Transformation of axial vacuum-arc plasma flows into radial streams and their use in coating deposition
Author :
Aksenov, Ivan I. ; Khoroshikh, Vladimir M. ; Lomino, Nikolay S. ; Ovcharenko, Valery D. ; Zadnepro, Yury A.
Author_Institution :
Nat. Sci. Center, Kharkov Inst. of Phys & Technol., Ukraine
fDate :
8/1/1999 12:00:00 AM
Abstract :
Radial filtered plasma flow formation in the annular gap between two oppositely directed rectilinear vacuum-arc erosion-plasma sources with magnetic focusing has been investigated. In both the opposing and aiding magnetic field configurations in the gap, the ion how density first increased to a certain maximum value (~4 mA/cm2 for Ti plasma) and then decreased with magnetic field strength, For this optimum condition the plasma losses during transformation of the axial flow into the radial flow were less than 20% in high vacuum. A uniform deposition rate of ~5 μm/h (for droplet-free Al and Ti coatings) was achieved over the annular substrate surface of 1300 cm2. (In case of conventional curvilinear filters this area is generally 10-20 cm 2)
Keywords :
plasma deposition; plasma flow; vacuum arcs; aiding magnetic field configurations; annular gap; annular substrate surface; axial flow; axial vacuum-arc plasma flows; coating deposition; curvilinear filters; filter; macroparticles; magnetic field strength; opposing magnetic field configurations; oppositely directed rectilinear vacuum-arc erosion-plasma sources; optimum condition; plasma losses; radial filtered plasma flow formation; radial flow; radial streams; uniform deposition rate; Cathodes; Coatings; Filters; Magnetic fields; Magnetic separation; Magnetosphere; Plasma density; Plasma displays; Plasma sources; Plasma transport processes;
Journal_Title :
Plasma Science, IEEE Transactions on
