Fatigue improvement of electron beam melting-fabricated biomedical Co–Cr–Mo alloy by accessible heat treatment

Daixiu Wei; Yuichiro Koizumi; Taiyo Takashima; Makoto Nagasako; Akihiko Chiba

doi:10.1080/21663831.2017.1396506

Fatigue improvement of electron beam melting-fabricated biomedical Co–Cr–Mo alloy by accessible heat treatment

Daixiu Wei, Yuichiro Koizumi, Taiyo Takashima, Makoto Nagasako, Akihiko Chiba

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

34 Citations (Scopus)

Abstract

We significantly improved the fatigue properties of an electron beam melting (EBM)-fabricated biomedical Co–Cr–Mo alloy by a simple post-production heat treatment without any deformation process. The fatigue properties were improved by transforming the as-EBM-fabricated dual-phase structure (containing both the ϵ-hcp and γ-fcc phases) into the dominant ϵ-hcp phase structure, and they were further improved significantly by reverse transforming it into the dominant grain-refined γ-fcc phase structure at certain ageing conditions. It provides an accessible avenue for improving the mechanical properties of additive-manufactured metallic components. (Figure presented.) IMPACT STATEMENT: The fatigue properties of additive-manufactured biomedical Co–Cr–Mo alloy were significantly improved though manipulating the fatigue behaviors, which was achieved by an accessible postproduction heat treatment.

Original language	English
Pages (from-to)	93-99
Number of pages	7
Journal	Materials Research Letters
Volume	6
Issue number	1
DOIs	https://doi.org/10.1080/21663831.2017.1396506
Publication status	Published - 2018 Jan 2

Keywords

Cobalt chromium alloy
Electron beam melting
Fatigue
Heat treatment

ASJC Scopus subject areas

Materials Science(all)

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10.1080/21663831.2017.1396506

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title = "Fatigue improvement of electron beam melting-fabricated biomedical Co–Cr–Mo alloy by accessible heat treatment",

abstract = "We significantly improved the fatigue properties of an electron beam melting (EBM)-fabricated biomedical Co–Cr–Mo alloy by a simple post-production heat treatment without any deformation process. The fatigue properties were improved by transforming the as-EBM-fabricated dual-phase structure (containing both the ϵ-hcp and γ-fcc phases) into the dominant ϵ-hcp phase structure, and they were further improved significantly by reverse transforming it into the dominant grain-refined γ-fcc phase structure at certain ageing conditions. It provides an accessible avenue for improving the mechanical properties of additive-manufactured metallic components. (Figure presented.) IMPACT STATEMENT: The fatigue properties of additive-manufactured biomedical Co–Cr–Mo alloy were significantly improved though manipulating the fatigue behaviors, which was achieved by an accessible postproduction heat treatment.",

keywords = "Cobalt chromium alloy, Electron beam melting, Fatigue, Heat treatment",

author = "Daixiu Wei and Yuichiro Koizumi and Taiyo Takashima and Makoto Nagasako and Akihiko Chiba",

note = "Funding Information: This work was supported by Grant-in-Aid for Scientific Research from the Japan Society for the Promotion of Science (JSPS) KAKENHI (grant numbers 17K17609, 26289252, 15K14154, 17H01329), and the {\textquoteleft}Creation of Life Innovation Materials for Interdisciplinary and International Researcher Development{\textquoteright} project. A part of this work was supported by {\textquoteleft}Nanotechnology Platform{\textquoteright} of Ministry of Education, Culture, Sports, Science, and Technology (MEXT), Japan, at the Center for Integrated Nanotechnology Support, Tohoku University. Dr Yumiko Kodama is highly appreciated for the preparation of TEM samples. This work is a cooperative program (Proposal No. 14G0411) of the Cooperative Research and Development Center for Advanced Materials, Institute for Materials Research, Tohoku University. Publisher Copyright: {\textcopyright} 2017 The Author(s).",

year = "2018",

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doi = "10.1080/21663831.2017.1396506",

language = "English",

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journal = "Materials Research Letters",

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T1 - Fatigue improvement of electron beam melting-fabricated biomedical Co–Cr–Mo alloy by accessible heat treatment

AU - Wei, Daixiu

AU - Koizumi, Yuichiro

AU - Takashima, Taiyo

AU - Nagasako, Makoto

AU - Chiba, Akihiko

N1 - Funding Information: This work was supported by Grant-in-Aid for Scientific Research from the Japan Society for the Promotion of Science (JSPS) KAKENHI (grant numbers 17K17609, 26289252, 15K14154, 17H01329), and the ‘Creation of Life Innovation Materials for Interdisciplinary and International Researcher Development’ project. A part of this work was supported by ‘Nanotechnology Platform’ of Ministry of Education, Culture, Sports, Science, and Technology (MEXT), Japan, at the Center for Integrated Nanotechnology Support, Tohoku University. Dr Yumiko Kodama is highly appreciated for the preparation of TEM samples. This work is a cooperative program (Proposal No. 14G0411) of the Cooperative Research and Development Center for Advanced Materials, Institute for Materials Research, Tohoku University. Publisher Copyright: © 2017 The Author(s).

PY - 2018/1/2

Y1 - 2018/1/2

N2 - We significantly improved the fatigue properties of an electron beam melting (EBM)-fabricated biomedical Co–Cr–Mo alloy by a simple post-production heat treatment without any deformation process. The fatigue properties were improved by transforming the as-EBM-fabricated dual-phase structure (containing both the ϵ-hcp and γ-fcc phases) into the dominant ϵ-hcp phase structure, and they were further improved significantly by reverse transforming it into the dominant grain-refined γ-fcc phase structure at certain ageing conditions. It provides an accessible avenue for improving the mechanical properties of additive-manufactured metallic components. (Figure presented.) IMPACT STATEMENT: The fatigue properties of additive-manufactured biomedical Co–Cr–Mo alloy were significantly improved though manipulating the fatigue behaviors, which was achieved by an accessible postproduction heat treatment.

AB - We significantly improved the fatigue properties of an electron beam melting (EBM)-fabricated biomedical Co–Cr–Mo alloy by a simple post-production heat treatment without any deformation process. The fatigue properties were improved by transforming the as-EBM-fabricated dual-phase structure (containing both the ϵ-hcp and γ-fcc phases) into the dominant ϵ-hcp phase structure, and they were further improved significantly by reverse transforming it into the dominant grain-refined γ-fcc phase structure at certain ageing conditions. It provides an accessible avenue for improving the mechanical properties of additive-manufactured metallic components. (Figure presented.) IMPACT STATEMENT: The fatigue properties of additive-manufactured biomedical Co–Cr–Mo alloy were significantly improved though manipulating the fatigue behaviors, which was achieved by an accessible postproduction heat treatment.

KW - Cobalt chromium alloy

KW - Electron beam melting

KW - Fatigue

KW - Heat treatment

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Fatigue improvement of electron beam melting-fabricated biomedical Co–Cr–Mo alloy by accessible heat treatment

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