Dynamic Recrystallization Behavior of Biomedical CCM Alloy with Additions of C and N

Yamashita, Yui; Li, Yunping; Onodera, Emi; Matsumoto, Hiroaki; Chiba, Akihiko

doi:10.2320/matertrans.maw201007

Cited by 14 publications

(2 citation statements)

References 11 publications

(12 reference statements)

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“…This allowed for a reduction in the nickel content, which had been previously believed to be necessary to maintain ductility in CCM alloys, to an extremely low level sufficient to avoid allergic reactions due to nickel ions. The addition of nitrogen was also found to be effective for high-carbon CCM alloy [38,39], and so the generally accepted categories of high/ low carbon and wrought/cast are not necessarily adequate for classifying the materials used for MoM hip implants.…”

Section: Introductionmentioning

confidence: 93%

Uneven damage on head and liner contact surfaces of a retrieved Co–Cr-based metal-on-metal hip joint bearing: An important reason for the high failure rate

Koizumi

Chen

et al. 2016

Materials Science and Engineering: C

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Section: Introductionmentioning

confidence: 93%

Uneven damage on head and liner contact surfaces of a retrieved Co–Cr-based metal-on-metal hip joint bearing: An important reason for the high failure rate

Koizumi

Chen

et al. 2016

Materials Science and Engineering: C

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“…10) In this study, a detailed analysis in the relationship between hot-deformation behavior and microstructural evolution has been carried out by using processing map. In addition, new friction and adiabatic correction method was used to obtain the intrinsic stress-strain curves of materials in order to plot processing map with high precision.…”

Section: Introductionmentioning

confidence: 99%

Construction of Processing Map for Biomedical Co-29Cr-6Mo-0.23C-0.14N Alloy by Using Compression Tests

Yamashita

Matsumoto

et al. 2011

Mater. Trans.

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The high-temperature deformation behavior of Co-29Cr-6Mo-0.23C-0.14N alloy was investigated by carrying out compression tests; the tests were carried out in the temperature range of 1000-1200 C and strain rates ranging from 0.01 to 30 s À1 with a height reduction of approximately 65%. The optimum hot-working conditions were determined from the processing map based on the dynamic materials model. Dynamic recrystallization was observed to occur over the entire temperature and strain rate range. However, uniformly sized grains were formed for strain rates higher than 1 s À1 , which is considered to be the optimum hot-working condition. In addition, authors suggested that in extremely low stacking fault energy alloy, explosive and homogeneous formation of mechanical twinning should be considered to be stable state, and new processing map with more detailed description of deformation mechanism seems necessary in future.

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Precipitates in Biomedical Co-Cr-Mo-C-N-Si-Mn Alloys

Alfirano

Mineta

Namba

et al. 2012

Metall Mater Trans A

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Dynamic Recrystallization Behavior of Biomedical CCM Alloy with Additions of C and N

Cited by 14 publications

References 11 publications

Uneven damage on head and liner contact surfaces of a retrieved Co–Cr-based metal-on-metal hip joint bearing: An important reason for the high failure rate

Uneven damage on head and liner contact surfaces of a retrieved Co–Cr-based metal-on-metal hip joint bearing: An important reason for the high failure rate

Construction of Processing Map for Biomedical Co-29Cr-6Mo-0.23C-0.14N Alloy by Using Compression Tests

Precipitates in Biomedical Co-Cr-Mo-C-N-Si-Mn Alloys

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