A robust superhydrophobic PPS-PTFE/SiO2 composite coating on AZ31 Mg alloy with excellent wear and corrosion resistance properties

摘要

Composite coatings consisting of polyphenylene sulfide (PPS), polytetrafluoroethylene (PTFE) and 40 nm silicon dioxide (SiO2) nanoparticles (PPS-PTFE/SiO2) with SiO2 in the range of 0-4 g/l were successfully prepared on AZ31 Mg alloys by a simple spray process. The morphology, composition, water contact angle (WCA), wear behavior and corrosion properties of the composite coatings were measured by using SEM, FT-IR, OCA20, sandpaper abrasion and electrochemical workstation, respectively. Effects of SiO2 content on the wear behavior and corrosion properties of the coatings were studied. It is found that micro-sized protrusions distribute on the surface of the coatings, and a fibrous-network structure of PTFE arranges on the protrusions. WCAs of the PPS-PTFE/SiO2 (0-4 g/1) coating are in the range of (152 -145.5 degrees) +/- 0.3 degrees and the sliding angles (SAs) are less than 5 degrees. The WCAs of the un-abraded and 10 m-abraded-on-sandpaper PPS-PTFE/SiO2 (4 g/l) coating are 145.5 degrees +/- 0.3 degrees and 142.5 degrees +/- 0.3 degrees, respectively, implying the PPS-PTFE/SiO2 coating is a robust superhydrophobic one with good wear resistance. Due to the superhydrophobic characteristics, the PPS-PTFE-based coatings show superior corrosion resistance in 3.5 wt% NaCI solution to pristine AZ31 Mg alloys. Owing to the excellent superhydrophobicity, wear resistance and corrosion resistance properties, the robust PPS-PTFE/SiO2 coating is regarded to possess great potential to be applied in automobiles and navigation industries in future. (C) 2017 Elsevier B.V. All rights reserved.