2017
DOI: 10.5006/2299
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Application of Side-View Imaging and Real-Time Hydrogen Measurement to the Investigation of Magnesium Corrosion

Abstract: This work illustrates how side-view optical imaging, anodic potentiodynamic polarization and realtime hydrogen evolution measurements can be applied and complementary used to study the processes occurring on a corroding magnesium surface. Side-view imaging reveals that hydrogen evolution takes three different forms: i) large and stable bubbles on the uncorroded regions, ii) a stream of fine hydrogen bubbles at the corrosion front and iii) medium-sized bubbles behind the corrosion front. The observation suggest… Show more

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Cited by 24 publications
(21 citation statements)
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“…3,4,12,16,[21][22][23][24][25][26][27] On these metals, with relatively low electrochemical potential for oxidation, hydrogen evolution is always thermodynamically possible in the presence of water, but may be hindered by the presence of an oxide, hydroxide, or mixed film that physically separates the metal surface from the electrolyte. In some conditions, when the film is locally disrupted, such as for example during anodic polarisation in chloride-containing environment or at active corrosion sites (pits) during free corrosion, hydrogen evolution might occur locally, providing additional current sustaining corrosion propagation.…”
Section: Introductionmentioning
confidence: 99%
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“…3,4,12,16,[21][22][23][24][25][26][27] On these metals, with relatively low electrochemical potential for oxidation, hydrogen evolution is always thermodynamically possible in the presence of water, but may be hindered by the presence of an oxide, hydroxide, or mixed film that physically separates the metal surface from the electrolyte. In some conditions, when the film is locally disrupted, such as for example during anodic polarisation in chloride-containing environment or at active corrosion sites (pits) during free corrosion, hydrogen evolution might occur locally, providing additional current sustaining corrosion propagation.…”
Section: Introductionmentioning
confidence: 99%
“…2-5, 21, 34 Thus, when cathodic activation takes place, the overall rate of hydrogen evolution at the free corrosion potential increases since there is an increase in hydrogen evolution occurring on the cathodically activated corroded regions, which result in increased availability of anodic current at the corrosion front which, in turn, results in further local hydrogen evolution. 12,21,23 Based on the previous considerations, it is clear that understanding the details of hydrogen evolution can provide insight into the corrosion behaviour in simple and more complex alloys. For aluminium, however, the experimental investigation at the open circuit potential is not trivial since, during free corrosion, the amount of hydrogen evolved is relatively low, and difficult to measure directly.…”
Section: Introductionmentioning
confidence: 99%
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“…21 Moreover, the majority of hydrogen evolved is visibly seen to originate at the head of most actively advancing corrosion fronts and is not uniform across the blackened areas which may suggest that the 'older' and net cathodic regions are not the primary source of anodic hydrogen evolution e . [21][22][23] Further electrochemical evidence for cathodic activation was shown through a series of alternating anodic and cathodic polarization scans which revealed increasing cathodic kinetics with increasing anodic polarization of Mg surfaces. 24 Additional cathodic potentiodynamic polarization scans performed after various anodic treatments also revealed an increase in the corrosion potential, in addition to increased cathodic kinetics.…”
mentioning
confidence: 99%
“…It has been argued by many that the growing anode sites specifically possess the highest reaction rate for HER. [21][22][23] Another important aspect of the SVET work is that the measured net cathodic current density at these cathodic sites increased as the net anodic current density became greater to maintain charge balance (∫ I anodic dt −|∫ I cathodic dt| = ∫ I applied dt). However, the integrated net cathodic current density with time from the SVET at steady state is much less than the volumetric hydrogen evolution rate d .…”
mentioning
confidence: 99%