Deposition of a multi-layer coating in a gas-metal beam-plasma formation at low pressure
The vacuum-arc plasma-assisted method was used to deposit a multilayer coating based on Ti and Al in two discharge systems - in a traditional plasma-assisted vacuum-arc spraying system and in a system for generating of gas-metal beam-plasma formation formed in a hollow cathode of a non-self-sustained low pressure glow discharge. The coatings obtained in the investigated discharge schemes are close in elemental and phase composition. In the coating deposited in the plasma-beam formation, the aluminum content is 8% lower, which is probably due to the overall higher average value of the ion flux density on the surface of the growing film in a non-self-sustained glow discharge. In the coating obtained by sputtering in a beam-plasma formation, there are no elements that are part of the material of the sputtered hollow cathode. Gas-metal beam-plasma formations, formed at low pressure, are promising in the processes of functional coatings deposition by the vacuum-arc plasma-assisted method.
Keywords
multilayer coating, beam-plasma formation, vacuum arc spraying, plasma assistance, low-pressure discharge, gas-metal plasmaAuthors
| Name | Organization | |
| Denisov V.V. | Institute of High Current Electronics SB RAS | denisov@opee.hcei.tsc.ru |
| Denisova Yu.A. | Institute of High Current Electronics SB RAS | yudenisova81@yandex.ru |
| Vardanyan E.L. | Ufa State Aviation Technical University | vardanyaned@gmail.com |
| Ostroverkhov E.V. | Institute of High Current Electronics SB RAS | evgeniy86evgeniy@mail.ru |
| Leonov A.A. | Institute of High Current Electronics SB RAS | laa91@tpu.ru |
| Savchuk M.V. | Institute of High Current Electronics SB RAS | mixail96@bk.ru |
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