Plasma-sprayed high entropy alloy coating with novel MoS2 /resin hybrid sealant: tribological and corrosion characterization

Shi, X ORCID: https://orcid.org/0000-0002-2869-2542, Liu, M, He, P, Chen, J, Beake, BD, Liskiewicz, TW ORCID: https://orcid.org/0000-0002-0866-814X and Chen, J (2024) Plasma-sprayed high entropy alloy coating with novel MoS2 /resin hybrid sealant: tribological and corrosion characterization. Ceramics International, 50 (22, A). pp. 45763-45775. ISSN 0272-8842

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Abstract

Sealing treatment provides a strategy for the long-term performance of thermal spray coatings under actual working conditions. However, common sealants are mainly limited to improving the corrosion resistance of coatings, neglecting applications in more complex environments where they are subject to simultaneous corrosion and wear. Herein, a novel organic-inorganic hybrid composite sealant, composed of self-lubricating MoS2 nanoparticles and environmentally friendly waterborne silicone modified acrylic resin (WBS-ACR), was successfully prepared in the pores and micro-defects of plasma-sprayed HEA coatings by one-step hydrothermal method. The results indicate that MoS2 nanosheets are uniformly synthesized in resin materials through precursor hydrothermal reactions. The hybrid sealants are filled densely in the micro-defects of HEA coatings with a maximum penetration depth greater than 180 μm. The tribological and electrochemical results indicate that the hybrid sealant exhibits similar anti-wear performance, but two orders of magnitude lower corrosion currents than that of pure MoS2 sealant. In comparison to the pure resin sealant, the hybrid sealant retains its excellent corrosion resistance while increasing its wear resistance. The superior comprehensive performance of the novel organic-inorganic hybrid sealant could expand the application of thermal spray coatings into new fields.