This study investigated the corrosion resistance and mechanical properties of Mg-2Zn-0.46Y-0.5Nd (wt.%) alloy plates and screws with fluorinated coatings and atomic layer deposition (ALD)-derived zirconia (ZrO) coatings in vitro under physiological stress conditions. Synthetic polyurethane hemimandible replicas were split and fixed as the following three groups of magnesium alloy plates and screws: no additional surface coating treatment (Group A), with fluorinated coatings (Group B), and with duplex fluorinated and ALD-derived 100 nm ZrO coatings (Group C). A circulating stress of 1-10 N was applied to the distal bone segment, and a 4-week simulated body fluid immersion test was employed to study the remaining material volume and the mechanical properties of the different groups. Compared with Group A and Group B, the degradation rate of magnesium alloy plates and screws' head regions was significantly slowed down under the protection of duplex MgF/ZrO coatings ( < 0.01). There was no significant difference in the degradation rate of the screw shaft region between groups ( = 0.077). In contrast to fluoride coatings, duplex MgF/ZrO coatings maintained the mechanical strength of magnesium alloy plates and screws after a 14 day in vitro SBF immersion test. We conclude that duplex MgF/ZrO coatings exhibited a certain protective effect on the Mg alloy plates and screws under physiological stress conditions.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11278270 | PMC |
| http://dx.doi.org/10.3390/ma17143485 | DOI Listing |
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