Effect of Co on oxidation and hot corrosion behavior of two nickel-based superalloys under Na2SO4-NaCl at 900 °C
(Naval Architecture and Port Engineering College, Shandong Jiaotong University, Weihai 264200, China)
Abstract: Nickel-based superalloys with and without Co by partial replacement of W were prepared using double vacuum melting. A comparison of the oxidation in air and hot corrosion behaviors under molten 75wt.%Na2SO4+ 25wt.%NaCl at 900 °C were systematically investigated. The results showed that partial replacement of W with Co promoted the formation of chromia scale and consequently decreased the oxidation rate. Besides, the addition of Co also retarded the internal oxidation/nitridation of Al and consequently promoted the growth of Al2O3 scale, which further decreased the scaling rate and improved the adhesion of scale. Moreover, the addition of Co also further improved the hot corrosion resistance under molten Na2SO4-NaCl salts.
Key words: nickel based superalloys; oxidation; hot corrosion; spallation resistance