A total of 47 alloys were produced to explore the changes in electrochemical and corrosion behavior of binary and ternary Mn- and Zr-containing Mg alloys—in the absence of Al. Up to ~2 wt% Mn was found to slightly reduce cathodic kinetics, while Zr in solid solution increased anodic reaction kinetics. We demonstrate that Zr is an efficient “activator” of Mg, which has not been explicitly shown previously. When Mn and Zr are both added to Mg, there can be an optimized combination/interaction where Mn with Zr works in conjunction to moderate the corrosion rate compared to an Mg-alloy with either Zr or Mn as singular additions. This has ramifications in emerging Al-free Mg alloys.

Subject
Corrosion rate, Metal surfaces, Reaction kinetics, Magnesium alloys, Sodium chloride, Commercial alloys, Kinetics, Impurities, Zirconium alloys, Immersion, Risk reduction, Aluminum alloys, Potentiodynamic polarization
Keywords:
magnesium, manganese, microstructure, polarization, scanning electron microscopy, zirconium
© 2013 NACE International
2013
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