Effect of titanium and tungsten carbide on the formation of the structure and properties of composite coatings. Part 3

Wear resistance of steel R6M5-(WC+TiC)/TiC coatings

S. F. Gnyusov, V. G. Durakov

Research output: Contribution to journalArticle

1 Citation (Scopus)

Abstract

The results of analysis of the relative abrasion wear resistance of composite coatings based on a high-speed tool steel are presented. It is shown that the R6M5 steel-(TiC+WC) coating, with the initial surfacing mixture containing 20% of the hardening phase (5% TiC+15% WC), has the highest wear resistance and does not require additional heat treatment.

Original languageEnglish
Pages (from-to)484-487
Number of pages4
JournalWelding International
Volume28
Issue number6
DOIs
Publication statusPublished - 1 Jun 2014

Fingerprint

Titanium carbide
Tungsten carbide
Steel
Composite coatings
Wear resistance
Coatings
Hard facing
Tool steel
Abrasion
Hardening
Heat treatment
titanium carbide
tungsten carbide

Keywords

  • composition coating
  • high-speed steel
  • wear resistance

ASJC Scopus subject areas

  • Mechanics of Materials
  • Mechanical Engineering
  • Metals and Alloys

Cite this

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abstract = "The results of analysis of the relative abrasion wear resistance of composite coatings based on a high-speed tool steel are presented. It is shown that the R6M5 steel-(TiC+WC) coating, with the initial surfacing mixture containing 20{\%} of the hardening phase (5{\%} TiC+15{\%} WC), has the highest wear resistance and does not require additional heat treatment.",
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AU - Durakov, V. G.

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N2 - The results of analysis of the relative abrasion wear resistance of composite coatings based on a high-speed tool steel are presented. It is shown that the R6M5 steel-(TiC+WC) coating, with the initial surfacing mixture containing 20% of the hardening phase (5% TiC+15% WC), has the highest wear resistance and does not require additional heat treatment.

AB - The results of analysis of the relative abrasion wear resistance of composite coatings based on a high-speed tool steel are presented. It is shown that the R6M5 steel-(TiC+WC) coating, with the initial surfacing mixture containing 20% of the hardening phase (5% TiC+15% WC), has the highest wear resistance and does not require additional heat treatment.

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