1. Characteristics and Electrochemical Behavior of AZ31 Mg Alloy Protected with Potentiostatically Deposited Polypyrrole Coatings.
- Author
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Masumi, S., Mahdavi, S., Etminanfar, M. R., and Marashi Najafi, F.
- Subjects
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POLYPYRROLE , *SURFACE coatings , *CONTACT angle , *MAGNESIUM alloys , *SCANNING electron microscopes , *ALLOYS - Abstract
Magnesium and its alloys are advantageous in clinical applications due to their excellent mechanical properties and suitable biological properties. However, due to their high corrosion rate in physiological environments, these alloys' application was limited. Polypyrrole (PPy) coatings were potentiostatically deposited on AZ31 alloy to reduce its corrosion rate in this study. The effect of applied potential and monomer concentration on the coatings' characteristics and properties such as wettability, corrosion resistance, and adhesion strength was studied. The coatings had cauliflower and porous micro-granular morphologies, according to scanning electron microscope images. The thickness and average roughness of the coatings increased from 0.3 to 3.8 µm and 18.3 to 43.7 nm, respectively, as the monomer concentration in the deposition bath was increased from 0.1 to 0.2 M. Increasing the applied potential had the same effect on thickness and roughness. According to the water contact angle (WCA) results, the alloy and all of the PPy coatings were hydrophilic. However, increasing the monomer concentration of the bath and the applied potential increased the WCA of the coatings. The electrochemical behavior of the samples in Ringer's solution was investigated using potentiodynamic polarization and electrochemical impedance spectroscopy. All of the coatings outperformed the bare substrate in terms of corrosion resistance. The corrosion current density of the optimum PPy coating obtained from a bath with 0.2 M pyrrole monomer at 3 V was approximately seven times lower than that of the AZ31 alloy. In the cross-cut adhesion test, this coating also demonstrated the best adhesion to the substrate. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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