Effect of grain size on high-temperature oxidation behavior of Cu-80Ni alloy
(1. Department of Chemistry, Shenyang Normal University,
Shenyang 110034, China;
2. State Key Laboratory for Corrosion and Protection,
Institute of Research Metals,
Chinese Academy of Sciences, Shenyang 110015,China)
Shenyang 110034, China;
2. State Key Laboratory for Corrosion and Protection,
Institute of Research Metals,
Chinese Academy of Sciences, Shenyang 110015,China)
Abstract: The thermogravimetric analysis of binary Cu-80Ni alloys prepared respectively by conventional casting(CA) and mechanical alloying(MA) techniques and presenting widely different grain sizes was performed at 800℃ in air in order to study the effect of grain size change on the oxidation behavior of a solid solution alloy. The results show that the kinetic curves for the oxidation of the two alloys are complex and deviate from the parabolic rate law and usually are not composed of a single stage. Mixed scales were produced on the CACu-80Ni alloy surface, which consists of a mixture of copper and nickel oxides. However, oxide scale for MACu-80Ni alloy is mainly composed of a thick compact and continuous inner layer of nickel oxide. The reduction in the alloy grain size speeds up the diffusion of the more reactive component nickel from the alloy to alloy/oxide scale interface and completes the transition from a mixed scale to continuous scale of nickel oxide.
Key words: copper-nickel alloy; Cu-80Ni alloy; single-phase; high-temperature oxidation