The Microstructures of Sintered TiC0.5N0.5-Mo2C-Ni Alloy

Hisashi Suzuki; Hideaki Matsubara; Masaya Asano

doi:10.2497/jjspm.32.219

The Microstructures of Sintered TiC_0.5N_0.5-Mo₂C-Ni Alloy

Hisashi Suzuki, Hideaki Matsubara, Masaya Asano

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

Abstract

The microstructures of TiG_0.5N_0.5-19%Mo₂C-23%Ni alloy sintered at 1723 K in vacuum or in various nitrogen pressures [formula omitted] were mainly studied. It was found that Mo₂C phase crystallized during cooling after sintering, when the alloy was sintered in the atmosphere with low [formula omitted], and the amount of the phase increased with lowering [formula omitted]. The phase did not crystallize when the carbon content of the alloy was slightly increased. The reason why the phase was produced or not according to [formula omitted] and carbon content of the alloy was discussed. The transverse-rupture strength of the alloy was examined in relation to these two factors affecting the microstructures.

Original language	English
Pages (from-to)	219-223
Number of pages	5
Journal	Funtai Oyobi Fummatsu Yakin/Journal of the Japan Society of Powder and Powder Metallurgy
Volume	32
Issue number	6
DOIs	https://doi.org/10.2497/jjspm.32.219
Publication status	Published - 1985
Externally published	Yes

ASJC Scopus subject areas

Mechanical Engineering
Industrial and Manufacturing Engineering
Metals and Alloys
Materials Chemistry

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10.2497/jjspm.32.219

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abstract = "The microstructures of TiG0.5N0.5-19%Mo2C-23%Ni alloy sintered at 1723 K in vacuum or in various nitrogen pressures [formula omitted] were mainly studied. It was found that Mo2C phase crystallized during cooling after sintering, when the alloy was sintered in the atmosphere with low [formula omitted], and the amount of the phase increased with lowering [formula omitted]. The phase did not crystallize when the carbon content of the alloy was slightly increased. The reason why the phase was produced or not according to [formula omitted] and carbon content of the alloy was discussed. The transverse-rupture strength of the alloy was examined in relation to these two factors affecting the microstructures.",

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AU - Asano, Masaya

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N2 - The microstructures of TiG0.5N0.5-19%Mo2C-23%Ni alloy sintered at 1723 K in vacuum or in various nitrogen pressures [formula omitted] were mainly studied. It was found that Mo2C phase crystallized during cooling after sintering, when the alloy was sintered in the atmosphere with low [formula omitted], and the amount of the phase increased with lowering [formula omitted]. The phase did not crystallize when the carbon content of the alloy was slightly increased. The reason why the phase was produced or not according to [formula omitted] and carbon content of the alloy was discussed. The transverse-rupture strength of the alloy was examined in relation to these two factors affecting the microstructures.

AB - The microstructures of TiG0.5N0.5-19%Mo2C-23%Ni alloy sintered at 1723 K in vacuum or in various nitrogen pressures [formula omitted] were mainly studied. It was found that Mo2C phase crystallized during cooling after sintering, when the alloy was sintered in the atmosphere with low [formula omitted], and the amount of the phase increased with lowering [formula omitted]. The phase did not crystallize when the carbon content of the alloy was slightly increased. The reason why the phase was produced or not according to [formula omitted] and carbon content of the alloy was discussed. The transverse-rupture strength of the alloy was examined in relation to these two factors affecting the microstructures.

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The Microstructures of Sintered TiC_0.5N_0.5-Mo₂C-Ni Alloy

Abstract

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