Effects of 5th element addition to Co-29Cr-6Mo alloy containing impurity ni on metal ion release

Translated title of the contribution: Effects of 5th element addition to Co-29Cr-6Mo alloy containing impurity ni on metal ion release

Shingo Kurosu, Naoyuki Nomura, Katsunori Yamaguchi, Shigeo Fujinuma, Akihiko Chiba

Research output: Contribution to journalArticle

9 Citations (Scopus)

Abstract

In order to investigate the effects of 5th element addition to Co-29Cr-6Mo-1Ni alloys on metal ion release, Co-29Cr-6Mo-1Ni-X(X=Ti, Nb, Al, Zr) alloys were immersed in 1 mass% lactic acid solution at 37°C for 7 days and released metal ions were examined by ICP-AES. All of the 5th element added alloys showed less Ni ion quantities released from various alloys than that released from the original Co-29Cr-6Mo-1Ni alloy. This result suggests that Ni ion release could be suppressed by Ni-fixation mechanism due to the formation of Ni-X compounds (X=Ti, Al, Nb, Zr). Furthermore, the quantities of Co ion from Co-29Cr-6Mo-1Ni-X(X = Ti, Zr) alloys were a half less than that from the original. Each metal ion quantity released from Co-Cr-Mo-Ni alloys consisting hcp phase is lower than that from the alloys consisting fcc phase. From the relationship between microstructure and released metal ion quantity, Co-Cr-Mo-Ni alloys consisting hcp phase exhibit low released metal quantities compared to those consisting fee phase. Therefore, it is likely that metal ion release is suppressed by controlling microstructure through the alloying method.

Original languageJapanese
Pages (from-to)886-891
Number of pages6
JournalNippon Kinzoku Gakkaishi/Journal of the Japan Institute of Metals
Volume69
Issue number10
DOIs
Publication statusPublished - 2005 Oct
Externally publishedYes

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Metal ions
metal ions
Impurities
impurities
Ions
Microstructure
Alloying
Lactic Acid
microstructure
ions
lactic acid
Metals
Lactic acid
alloying
metals
cobalt-nickel-chromium-molybdenum alloy

ASJC Scopus subject areas

  • Metals and Alloys

Cite this

Effects of 5th element addition to Co-29Cr-6Mo alloy containing impurity ni on metal ion release. / Kurosu, Shingo; Nomura, Naoyuki; Yamaguchi, Katsunori; Fujinuma, Shigeo; Chiba, Akihiko.

In: Nippon Kinzoku Gakkaishi/Journal of the Japan Institute of Metals, Vol. 69, No. 10, 10.2005, p. 886-891.

Research output: Contribution to journalArticle

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abstract = "In order to investigate the effects of 5th element addition to Co-29Cr-6Mo-1Ni alloys on metal ion release, Co-29Cr-6Mo-1Ni-X(X=Ti, Nb, Al, Zr) alloys were immersed in 1 mass{\%} lactic acid solution at 37°C for 7 days and released metal ions were examined by ICP-AES. All of the 5th element added alloys showed less Ni ion quantities released from various alloys than that released from the original Co-29Cr-6Mo-1Ni alloy. This result suggests that Ni ion release could be suppressed by Ni-fixation mechanism due to the formation of Ni-X compounds (X=Ti, Al, Nb, Zr). Furthermore, the quantities of Co ion from Co-29Cr-6Mo-1Ni-X(X = Ti, Zr) alloys were a half less than that from the original. Each metal ion quantity released from Co-Cr-Mo-Ni alloys consisting hcp phase is lower than that from the alloys consisting fcc phase. From the relationship between microstructure and released metal ion quantity, Co-Cr-Mo-Ni alloys consisting hcp phase exhibit low released metal quantities compared to those consisting fee phase. Therefore, it is likely that metal ion release is suppressed by controlling microstructure through the alloying method.",
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AU - Nomura, Naoyuki

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AU - Fujinuma, Shigeo

AU - Chiba, Akihiko

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N2 - In order to investigate the effects of 5th element addition to Co-29Cr-6Mo-1Ni alloys on metal ion release, Co-29Cr-6Mo-1Ni-X(X=Ti, Nb, Al, Zr) alloys were immersed in 1 mass% lactic acid solution at 37°C for 7 days and released metal ions were examined by ICP-AES. All of the 5th element added alloys showed less Ni ion quantities released from various alloys than that released from the original Co-29Cr-6Mo-1Ni alloy. This result suggests that Ni ion release could be suppressed by Ni-fixation mechanism due to the formation of Ni-X compounds (X=Ti, Al, Nb, Zr). Furthermore, the quantities of Co ion from Co-29Cr-6Mo-1Ni-X(X = Ti, Zr) alloys were a half less than that from the original. Each metal ion quantity released from Co-Cr-Mo-Ni alloys consisting hcp phase is lower than that from the alloys consisting fcc phase. From the relationship between microstructure and released metal ion quantity, Co-Cr-Mo-Ni alloys consisting hcp phase exhibit low released metal quantities compared to those consisting fee phase. Therefore, it is likely that metal ion release is suppressed by controlling microstructure through the alloying method.

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