Cathode Spots of Vacuum Arc Discharges

Bystrov, Yu. A.; Kostrin, D. K.; Lisenkov, A. A.; Vetrov, N. Z.

doi:10.1002/vipr.201500578

Cited by 25 publications

(2 citation statements)

References 5 publications

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“…The developed methods of control over density and composition of a plasma flux allowed adjustment of technological processes of receiving nitride (Fig. 2) and carbide compounds of titanium, zirconium, aluminum, molybdenum and tungsten [13,14]. .…”

Section: Results and Summarymentioning

confidence: 99%

Surface Modification by Vacuum Arc Plasma Source

Kostrin

Lisenkov

2016

MSF

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In this article features of application of the vacuum arc discharge for modification of surfaces are considered. The complication of o this process simulation due to its complexity and tight correlation between different parameters is explained. The mathematical model describing the interaction of a plasma flux with controlling system is offered. The need of cleaning plasma flux from drop fraction in the process of metal coatings deposition is shown. The properties of coatings received by means of a vacuum arc method are considered.

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Section: Results and Summarymentioning

confidence: 99%

Surface Modification by Vacuum Arc Plasma Source

Kostrin

Lisenkov

2016

MSF

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“…Carbon received by a thermal decomposition of the high density graphite of the MPG-6 brand in the plasma of a vacuum arc discharge, existing in the vapors of the eroded cathode, was used as an applied material. Pulverization is implemented from the area of the cathode spot [8], which is simulated in the form of a circle like a thermal source on the cathode surface [9].…”

Section: Features Of Graphite Pulverization By a Vacuum Arc Dischargementioning

confidence: 99%

Vacuum Arc Deposition of Carbon and Carbon-Based Coatings

Lisenkov

Kostrin

Pikus

2017

SSP

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The paper describes the main features of the vacuum arc deposition of carbon and carbon-based coatings. This type of films and coatings is very interesting for the various areas of science and technology due to its unique properties. Pulverization of carbon in the vacuum arc discharge allows achieving the formation of carbon films and coatings of various structural modifications. The character of the particles deposition from the plasma flow depends on their energy and defines adhesion of the formed coating to the substrate, and also its structure, composition and existence of the formed defects.

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