Decreasing the rate of degradation of Mg has been the focus of developing various types of coatings for Mg. Though polycaprolactone (PCL) coating is capable of providing short-term improvement in… Click to show full abstract
Decreasing the rate of degradation of Mg has been the focus of developing various types of coatings for Mg. Though polycaprolactone (PCL) coating is capable of providing short-term improvement in corrosion resistance for Mg, the porous nature of the PCL coating and the inside out corrosion of Mg have led to cracking and delamination of the PCL coating. Poor adhesion of the PCL coating on Mg is another limitation. To overcome these limitations, the present study aims to explore magnesium carbonate coating as a pre-treatment. The study proposes a duplex coating approach, which involves deposition of magnesium carbonate by a chemical conversion method as the first layer over which a PCL coating is formed by the dip coating method. The morphological features, nature of functional groups, phase content, adhesive strength, etc., of the magnesium carbonate and duplex coating were evaluated by using scanning electron microscopy, FT-IR spectroscopy, X-ray diffraction measurement and tensile testing, respectively. The corrosion behaviour of the magnesium carbonate and duplex coating in Hanks’ solution was evaluated by using potentiodynamic polarization, electrochemical impedance spectroscopy and immersion tests. The bioactivity of the magnesium carbonate and duplex coating was evaluated by immersing them in simulated body fluid. The extent of apatite growth served as a measure of their bioactivity. The study reveals that MgCO3 coating served as an excellent base for the deposition of the PCL layer and the duplex coating offered a good corrosion resistance in Hanks’ solution and exhibited better bioactivity in simulated body fluid. The study concludes that the magnesium carbonate-PCL duplex coating is a viable approach to reduce the rate of corrosion of magnesium and to improve its bioactivity.
               
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