Corrosion behavior and in vitro biocompatibility of Zr–Al–Co–Ag bulk metallic glasses: An experimental case study

Ni- and Cu–free Zr–Al–Co–Ag bulk metallic glasses (BMGs) were synthesized by copper mold casting. The effects of Ag addition for partially replacing Co of Zr53Al16Co31 BMG on the corrosion behavior, surface chemistry and in vitro biocompatibility of BMGs were investigated. The Zr–Al–Co–Ag BMGs are s...

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Published inJournal of non-crystalline solids Vol. 358; no. 12-13; pp. 1599 - 1604
Main Authors Hua, Nengbin, Huang, Lu, Wang, Jianfeng, Cao, Yu, He, Wei, Pang, Shujie, Zhang, Tao
Format Journal Article
LanguageEnglish
Published Oxford Elsevier B.V 01.07.2012
Elsevier
Subjects
Applied sciences
Biocompatibility
Corrosion
Corrosion mechanisms
Cross-disciplinary physics: materials science; rheology
Exact sciences and technology
Glasses (including metallic glasses)
Materials science
Metallic glasses
Metals. Metallurgy
Physics
Specific materials
Zirconium alloys
Metallic glasses
Biocompatibility
Corrosion
Zirconium alloys
Phosphates
Surface chemistry
Cytotoxicity
Silver addition
Experimental study
Case study
Corrosion resistance
Casting
Morphology
Osteoblast
Copper
Microstructure
Current density
Medical application
Passivation
X-ray photoelectron spectra
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Abstract Ni- and Cu–free Zr–Al–Co–Ag bulk metallic glasses (BMGs) were synthesized by copper mold casting. The effects of Ag addition for partially replacing Co of Zr53Al16Co31 BMG on the corrosion behavior, surface chemistry and in vitro biocompatibility of BMGs were investigated. The Zr–Al–Co–Ag BMGs are spontaneously passivated with low passive current densities in phosphate buffered saline (PBS) solution. Partial substitution of Co by Ag is effective in improving the corrosion resistance of the Zr–Al–Co BMG. X-ray photoelectron spectroscopy (XPS) measurements reveal that the Ag addition increases the concentration of Zr and decreases the concentration of Al in the surface passive film of BMGs, which is responsible for the enhanced corrosion resistance of Zr–Al–Co–Ag BMGs. Mouse MC3T3-E1 pre-osteoblast cell proliferation results and morphology observations show that the Zr–Al–Co–Ag BMGs exhibit comparable cell viability and proliferation activity with those of Ti–6Al–4V alloy, demonstrating their good biocompatibility. The high corrosion resistance in PBS and low in vitro cytotoxicity of Zr–Al–Co–Ag BMGs suggest an initial biocompatibility for biomedical applications. ► Increasing in Ag content in the Zr-Al-Co-Ag BMGs enhances their corrosion resistance. ► Addition of Ag in the Zr–Al–Co BMG changes its composition of surface film. ► The Zr–Al–Co–Ag BMGs exhibit good biocompatibility.
AbstractList Ni- and Cu–free Zr–Al–Co–Ag bulk metallic glasses (BMGs) were synthesized by copper mold casting. The effects of Ag addition for partially replacing Co of Zr53Al16Co31 BMG on the corrosion behavior, surface chemistry and in vitro biocompatibility of BMGs were investigated. The Zr–Al–Co–Ag BMGs are spontaneously passivated with low passive current densities in phosphate buffered saline (PBS) solution. Partial substitution of Co by Ag is effective in improving the corrosion resistance of the Zr–Al–Co BMG. X-ray photoelectron spectroscopy (XPS) measurements reveal that the Ag addition increases the concentration of Zr and decreases the concentration of Al in the surface passive film of BMGs, which is responsible for the enhanced corrosion resistance of Zr–Al–Co–Ag BMGs. Mouse MC3T3-E1 pre-osteoblast cell proliferation results and morphology observations show that the Zr–Al–Co–Ag BMGs exhibit comparable cell viability and proliferation activity with those of Ti–6Al–4V alloy, demonstrating their good biocompatibility. The high corrosion resistance in PBS and low in vitro cytotoxicity of Zr–Al–Co–Ag BMGs suggest an initial biocompatibility for biomedical applications. ► Increasing in Ag content in the Zr-Al-Co-Ag BMGs enhances their corrosion resistance. ► Addition of Ag in the Zr–Al–Co BMG changes its composition of surface film. ► The Zr–Al–Co–Ag BMGs exhibit good biocompatibility.
Author Huang, Lu
Pang, Shujie
Hua, Nengbin
Cao, Yu
He, Wei
Wang, Jianfeng
Zhang, Tao
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  email: zhangtao@buaa.edu.cn
  organization: Key Laboratory of Aerospace Materials and Performance (Ministry of Education), School of Materials Science and Engineering, Beihang University, Beijing 100191, China
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Issue 12-13
Keywords Metallic glasses
Biocompatibility
Corrosion
Zirconium alloys
Phosphates
Surface chemistry
Cytotoxicity
Silver addition
Experimental study
Case study
Corrosion resistance
Casting
Morphology
Osteoblast
Copper
Microstructure
Current density
Medical application
Passivation
X-ray photoelectron spectra
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Snippet Ni- and Cu–free Zr–Al–Co–Ag bulk metallic glasses (BMGs) were synthesized by copper mold casting. The effects of Ag addition for partially replacing Co of...
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SubjectTerms Applied sciences
Biocompatibility
Corrosion
Corrosion mechanisms
Cross-disciplinary physics: materials science; rheology
Exact sciences and technology
Glasses (including metallic glasses)
Materials science
Metallic glasses
Metals. Metallurgy
Physics
Specific materials
Zirconium alloys
Title Corrosion behavior and in vitro biocompatibility of Zr–Al–Co–Ag bulk metallic glasses: An experimental case study
URI https://dx.doi.org/10.1016/j.jnoncrysol.2012.04.022
Volume 358
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