Equipment and methods for hybrid technologies of ion beam and plasma surface materials modification

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9 Citations (Scopus)

Abstract

A new-generation installation for realization of hybrid technologies of the ion beam and plasma material treatment includes vacuum-arc generators of gaseous and metal plasma with the devices for micro-particles filtering, medium frequency dual magnetron, high current ion and plasma source, high voltage generator for high-frequency short-pulsed plasma-immersion ion implantation or coating deposition. With the use of the complex installation equipment an intermetallic Al → Ti system was formed in a target surface layer to a depth of 2600 nm with dopants concentration up to 60%. The abilities of improvement of the main physical and mechanical characteristics of coatings in comparison with conventional PVD technologies have been demonstrated on the example of formation of monolayer TiSiB coating and multilayer TiAlN/TiN coatings with the thickness of each separate layer varied from 2 to 10 nm.

Original languageEnglish
Pages (from-to)2784-2787
Number of pages4
JournalSurface and Coatings Technology
Volume203
Issue number17-18
DOIs
Publication statusPublished - 15 Jun 2009

Fingerprint

Ion beams
ion beams
Plasmas
coatings
Coatings
arc generators
installing
voltage generators
Plasma sources
Physical vapor deposition
Ion sources
Ion implantation
ion sources
submerging
Intermetallics
intermetallics
high current
ion implantation
high voltages
Monolayers

Keywords

  • Hybrid technology
  • Ion implantation
  • Ion source
  • Multilayer coatings
  • Plasma generator

ASJC Scopus subject areas

  • Chemistry(all)
  • Condensed Matter Physics
  • Materials Chemistry
  • Surfaces, Coatings and Films
  • Surfaces and Interfaces

Cite this

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abstract = "A new-generation installation for realization of hybrid technologies of the ion beam and plasma material treatment includes vacuum-arc generators of gaseous and metal plasma with the devices for micro-particles filtering, medium frequency dual magnetron, high current ion and plasma source, high voltage generator for high-frequency short-pulsed plasma-immersion ion implantation or coating deposition. With the use of the complex installation equipment an intermetallic Al → Ti system was formed in a target surface layer to a depth of 2600 nm with dopants concentration up to 60{\%}. The abilities of improvement of the main physical and mechanical characteristics of coatings in comparison with conventional PVD technologies have been demonstrated on the example of formation of monolayer TiSiB coating and multilayer TiAlN/TiN coatings with the thickness of each separate layer varied from 2 to 10 nm.",
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AU - Stepanov, I. B.

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N2 - A new-generation installation for realization of hybrid technologies of the ion beam and plasma material treatment includes vacuum-arc generators of gaseous and metal plasma with the devices for micro-particles filtering, medium frequency dual magnetron, high current ion and plasma source, high voltage generator for high-frequency short-pulsed plasma-immersion ion implantation or coating deposition. With the use of the complex installation equipment an intermetallic Al → Ti system was formed in a target surface layer to a depth of 2600 nm with dopants concentration up to 60%. The abilities of improvement of the main physical and mechanical characteristics of coatings in comparison with conventional PVD technologies have been demonstrated on the example of formation of monolayer TiSiB coating and multilayer TiAlN/TiN coatings with the thickness of each separate layer varied from 2 to 10 nm.

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