<p>Corrosion-resistant electrodeposited Ni—Mo—B coatings of various chemical compositions were obtained from a&#xa0;self-regulating electrolyte, and their micromechanical, tribological, and tribocorrosion properties were investigated. The influence of electrodeposition parameters on the composition, structure, and characteristics of Ni—Mo—B coatings was studied. They exhibit a&#xa0;fine-grained structure with 8–27 wt% Mo and 1.3–3.39 wt% B, free of pores and cracks. It was established that an increase in molybdenum content enhances the corrosion resistance of the coatings in chloride-containing media. The micromechanical properties of coatings with&#xa0;8 and 16 wt% Mo were examined using sclerometry and dynamic nanoindentation, while their tribological and tribocorrosion characteristics were evaluated under a&#xa0;“plane-ball” configuration in air and in 3% NaCl solution, respectively. It was revealed that coatings with 8 wt% Mo perform better under dry friction conditions, whereas coatings with 16 wt% Mo are more effective under tribocorrosion loading. The Ni—Mo—B coatings can serve as an environmentally friendly alternative to hard chromium.</p>

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Corrosion resistance, wear resistance, and tribocorrosion of Ni—Mo—B electrodeposited coatings

  • S. A. Halaichak,
  • S. A. Korniy,
  • V. I. Zakiev,
  • V. A. Vynar,
  • M. V. Danylchuk,
  • M. R. Chuchman,
  • R. S. Mardarevych

摘要

Corrosion-resistant electrodeposited Ni—Mo—B coatings of various chemical compositions were obtained from a self-regulating electrolyte, and their micromechanical, tribological, and tribocorrosion properties were investigated. The influence of electrodeposition parameters on the composition, structure, and characteristics of Ni—Mo—B coatings was studied. They exhibit a fine-grained structure with 8–27 wt% Mo and 1.3–3.39 wt% B, free of pores and cracks. It was established that an increase in molybdenum content enhances the corrosion resistance of the coatings in chloride-containing media. The micromechanical properties of coatings with 8 and 16 wt% Mo were examined using sclerometry and dynamic nanoindentation, while their tribological and tribocorrosion characteristics were evaluated under a “plane-ball” configuration in air and in 3% NaCl solution, respectively. It was revealed that coatings with 8 wt% Mo perform better under dry friction conditions, whereas coatings with 16 wt% Mo are more effective under tribocorrosion loading. The Ni—Mo—B coatings can serve as an environmentally friendly alternative to hard chromium.