Dry machining tool design via chlorine ion implantation

Tatsuhiko Aizawa; Atsushi Mitsuo; Shigeo Yamamoto; Shinji Muraishi; Taro Sumitomo

Dry machining tool design via chlorine ion implantation

Tatsuhiko Aizawa, Atsushi Mitsuo, Shigeo Yamamoto, Shinji Muraishi, Taro Sumitomo

Materials Science and Engineering

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

Dry machining has become a key issue to significantly reduce the wastes of used lubricants and cleaning agents and to improve the environmental consciousness for medical and food applications of special tooling. Since the tools and metallic works are in direct contact in dry, severe adhesive wear and oxidation are thought to occur even at the presence of hard protective coatings. Self-lubrication mechanism with the use of lubricous oxide films is found to be effective for dry machining. Through the chlorine ion implantation to tools, titanium base oxides are in-situ formed on the tool surface. This oxide deforms elastoplastically so that both friction coefficient and wear volume are reduced even in the high-speed cutting.

Original language	English
Pages (from-to)	879-882
Number of pages	4
Journal	Cailiao Rechuli Xuebao/Transactions of Materials and Heat Treatment
Volume	25
Issue number	5
Publication status	Published - 2004 Oct 1

Keywords

Chlorine ion implantation
Dry machining
Self lubrication
TiCN coating
TiN coating
WC tool

ASJC Scopus subject areas

Materials Science(all)
Physics and Astronomy(all)

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abstract = "Dry machining has become a key issue to significantly reduce the wastes of used lubricants and cleaning agents and to improve the environmental consciousness for medical and food applications of special tooling. Since the tools and metallic works are in direct contact in dry, severe adhesive wear and oxidation are thought to occur even at the presence of hard protective coatings. Self-lubrication mechanism with the use of lubricous oxide films is found to be effective for dry machining. Through the chlorine ion implantation to tools, titanium base oxides are in-situ formed on the tool surface. This oxide deforms elastoplastically so that both friction coefficient and wear volume are reduced even in the high-speed cutting.",

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T1 - Dry machining tool design via chlorine ion implantation

AU - Aizawa, Tatsuhiko

AU - Mitsuo, Atsushi

AU - Yamamoto, Shigeo

AU - Muraishi, Shinji

AU - Sumitomo, Taro

PY - 2004/10/1

Y1 - 2004/10/1

N2 - Dry machining has become a key issue to significantly reduce the wastes of used lubricants and cleaning agents and to improve the environmental consciousness for medical and food applications of special tooling. Since the tools and metallic works are in direct contact in dry, severe adhesive wear and oxidation are thought to occur even at the presence of hard protective coatings. Self-lubrication mechanism with the use of lubricous oxide films is found to be effective for dry machining. Through the chlorine ion implantation to tools, titanium base oxides are in-situ formed on the tool surface. This oxide deforms elastoplastically so that both friction coefficient and wear volume are reduced even in the high-speed cutting.

AB - Dry machining has become a key issue to significantly reduce the wastes of used lubricants and cleaning agents and to improve the environmental consciousness for medical and food applications of special tooling. Since the tools and metallic works are in direct contact in dry, severe adhesive wear and oxidation are thought to occur even at the presence of hard protective coatings. Self-lubrication mechanism with the use of lubricous oxide films is found to be effective for dry machining. Through the chlorine ion implantation to tools, titanium base oxides are in-situ formed on the tool surface. This oxide deforms elastoplastically so that both friction coefficient and wear volume are reduced even in the high-speed cutting.

KW - Chlorine ion implantation

KW - Dry machining

KW - Self lubrication

KW - TiCN coating

KW - TiN coating

KW - WC tool

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Dry machining tool design via chlorine ion implantation

Abstract

Keywords

ASJC Scopus subject areas

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