The influence of hydrofluoric acid doped polyaniline on the protective performance of a mg-rich epoxy coating on AZ91D magnesium alloy

The influence of hydrofluoric acid doped polyaniline on the protective performance of a mg-rich epoxy coating on AZ91D magnesium alloy

•Hydrofluoric acid doped polyaniline (HF-PANI) is added in a Mg-rich epoxy on AZ91D alloy.•HF-PANI improves the protection performance of the Mg-rich coating on AZ91D alloy significantly.•1 wt% HF-PANI addition improves the electrical contact between Mg particles and the AZ91D, enhancing cathodic pr...

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Bibliographic Details
Published in:Progress in organic coatings Vol. 141; p. 105550
Main Authors: Feng, Xingguo, Zhu, Chao, Lu, Xiangyu, Yiji, Zhang, Wu, Tong, Zuo, Yu, Zhao, Xuhui, Dun, Yuchao, Wang, Mai
Format: Journal Article
Language:English
Published: Elsevier B.V 01-04-2020
Subjects:
Corrosion
EIS
Magnesium alloy
Mg-rich primer
Polyaniline
Mg-rich primer
Corrosion
Polyaniline
EIS
Magnesium alloy
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Summary:•Hydrofluoric acid doped polyaniline (HF-PANI) is added in a Mg-rich epoxy on AZ91D alloy.•HF-PANI improves the protection performance of the Mg-rich coating on AZ91D alloy significantly.•1 wt% HF-PANI addition improves the electrical contact between Mg particles and the AZ91D, enhancing cathodic protection.•The formed MgF2 and oxides of Mg enhance the barrier effect. Hydrofluoric acid doped PANI (PANI-HF) particles were added to a magnesium (Mg)-rich primer (MRP) on AZ91D Mg alloy and the influence of the particles on the primer was investigated. The optimal PANI-HF particle content was 1 wt.%. These particles improved the electrical contact between Mg particles and the AZ91D substrate, thereby enhancing the cathodic protection. Subsequently, the products of Mg particles (MgO and MgF2) precipitated in the coating and improved the barrier effects. Moreover, PANI captured some chloride ions, thereby reducing degradation of the coating. Eventually, the protective film formed on the AZ91D substrate blocked the electrolyte permeation, retarding the corrosion of the substrate.
ISSN:0300-9440
1873-331X
DOI:10.1016/j.porgcoat.2020.105550