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Article Dans Une Revue npj Materials Degradation Année : 2019

Cathodic driven coating delamination suppressed by inhibition of cation migration along Zn|polymer interface in atmospheric CO2

Résumé

The degradation of the Zn|polymer interface is inhibited by CO 2 gas in a humid environment. The inhibition mechanism varies greatly for different polymer matrices and depends on the affinity of the polymer to CO 2. Coatings based on polymers with high affinity to CO 2 such as polyacrylamide show high delamination rates due to the fast uptake of water. In this case, the cation transport that causes the initial pull down of potential for initiating the oxygen reduction reaction occurs via the polymer. Here CO 2 decreases water uptake due to competitive absorption into the polymer matrix, inhibiting the delamination rate. CO 2 can quickly reach the interface of polymers with functional groups with a low affinity to water and CO 2 , such as polyvinyl butyral and polyvinyl alcohol. In this case, the inhibition of the delamination rate is achieved by a strong decrease in cation migration rate at the Zn| polymer interface accompanied by the formation of mixed hydrozincite/absorbed CO 2 layers on the ZnO surface underneath the polymers. Further experiments showed that the presence of CO 2 accelerates anion migration, suggesting an influence of CO 2 on the surface charge at the Zn|coating interface, thus affecting ion migration. Inhibition of cation migration has never been reported before and should be taken into account into the mechanism of cathodic-driven delamination on Zn under atmospheric conditions.

Domaines

Matériaux
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Dates et versions

hal-02380908 , version 1 (26-11-2019)

Identifiants

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Viacheslav Shkirskiy, Matthias Uebel, Alina Maltseva, Grégory Lefèvre, Polina Volovitch, et al.. Cathodic driven coating delamination suppressed by inhibition of cation migration along Zn|polymer interface in atmospheric CO2. npj Materials Degradation, 2019, 3, pp.2. ⟨10.1038/s41529-018-0064-z⟩. ⟨hal-02380908⟩
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