Oxidation Behavior of Ni-Cr-Fe-Based Alloys: Effect of Alloy Microstructure and Silicon Content

摘要

The oxidation behavior of Ni-Cr-Fe-based alloys in a low oxygen partial pressure atmosphere (H_2-H_2O) was investigated in terms of the effect of alloy microstructure and their silicon content. It was found that the formation and growth kinetics of the oxide scale are rather sensitive to the alloy microstructure and their corresponding Si contents. Oxide ridges were found to form in areas with eutectic structure, while a thin and homogeneous oxide scale formed on austenite matrix. The thicknesses of the oxide ridges and the oxide layer on the austenite matrix were dependent of their corresponding Si contents. The austenite/carbide phase boundaries in eutectic structure can offer fast diffusion paths for metal out-ward diffusion, which leads to the formation of ridge-like oxide features. The continuous SiO_2 sub-layer formed at the oxide scale/metal interface on the austenitic matrix acted as an effective diffusion barrier to metal outward diffusion, resulting in rather thin and uniform oxide scales.