ABSTRACT
Ni-Al/Ni-Al-Y2O3 composite coatings with 10.5 wt.% Al were firstly developed by codeposition of Ni and Al/Y2O3 particles, then chromized at 700°C for 8 h to produce a novel Y2O3-modified-/free-Al-containg chromium coating. Oxidation resistance of Ni-Al/Ni-Al-Y2O3 composite before and after chromization were compared at 900°C for 50 h. The results indicated Y2O3 slightly decreased the scaling rate of the electrodeposited aluminaforming Ni-10.5 wt. Al composite coatings, and the reduction effect increased with the extend of oxidation time. The inward diffusion of Cr and outward diffusion of Al caused the formation of surface Cr2Al layer above an Al-depleted area. At the same time, the gradual enrichment of Al in the inner area caused the formation of γ′-Ni3Al inner layer, which inversely inhibited the inward Cr diffusion due to lower Cr solution in γ′-Ni3Al. Mixture oxides of (Cr1−xAlx)2O3 formed on surface Cr2Al spell at 5 h due to lower spallation resistance. After then Y2O3 significantly decreased the scaling rate of chromium coatings. The effects of Y2O3 on the chromium coating formation and the oxidation behavior of the as-deposited aluminaforming Ni-Al composite coatings before and after chromization are discussed in detail.