Evaluation of the Potential Range for Sacrificial Mg Anodes for the Cathodic Protection of Mg Alloy AZ31B-H24

Corrosion protection of Mg and its alloys remains a challenge hindering widespread application. The propensity for Mg alloy AZ31B-H24 (Mg-3Al-1Zn) to be protected via sacrificial anodic based cathodic protection was evaluated. Potentiostatic polarization of AZ31B-H24 in 0.6 M NaCl and 0.1 M MgCl2 re...

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Bibliographic Details
Published inCorrosion (Houston, Tex.) Vol. 73; no. 5; pp. 544 - 562
Main Authors Cain, T.W., Melia, M.A., Fitz-Gerald, J.M., Scully, J.R.
Format Journal Article
LanguageEnglish
Published Houston NACE International 01.05.2017
Subjects
Alloys
Ammeters
Anodes
Anodic polarization
Anodic protection
Cathodes
Cathodic polarization
Cathodic protection
Charge density
Circuits
Corrosion
Corrosion effects
Corrosion potential
Corrosion prevention
Corrosion rate
Corrosion resistance
Couples
Defects
Electrochemistry
Electrode polarization
Electrodes
Gravimetry
Lasers
Magnesium base alloys
Magnesium chloride
Polarity
Protection
Protective coatings
Sodium chloride
Studies
Testing
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Summary:Corrosion protection of Mg and its alloys remains a challenge hindering widespread application. The propensity for Mg alloy AZ31B-H24 (Mg-3Al-1Zn) to be protected via sacrificial anodic based cathodic protection was evaluated. Potentiostatic polarization of AZ31B-H24 in 0.6 M NaCl and 0.1 M MgCl2 revealed that a wide range of potentials for practical or kinetic-based sacrificial cathodic protection is possible for Mg alloys but a practical range of potentials for substantial cathodic protection in 0.1 M TRIS was not observed. In addition, residual corrosion rates at potentials cathodic to their open-circuit potential were greater than expectations from electrochemical mixed potential corrosion theory interpreted to be a result of the negative difference effect. Zero resistance ammeter (ZRA) testing was performed on couples of AZ31B-H24 to commercially pure (CP) Mg and Mg alloy WE43B-T5 (Mg-4Y-3RE) to validate the range of protection for AZ31B-H24 and to evaluate their suitability for the protection of AZ31B-H24. Gravimetric mass loss of AZ31B-H24 from ZRA coupled samples revealed only a 2× to 12× decrease in anodic charge density compared to that at open-circuit potential. Coupled WE43B possessed a lower self-corrosion fraction than coupled CP Mg because it possesses a larger potential difference between its open-circuit potential and galvanic couple potential. Anode-cathode polarity reversal was not observed for couples of AZ31B-H24 to CP Mg and WE43B, but further ZRA testing did reveal polarity reversal of laser surface modified AZ31B-H24 coupled to base AZ31B-H24.
ISSN:0010-9312
1938-159X
DOI:10.5006/2356