Journal
CORROSION SCIENCE
Volume 211, Issue -, Pages -Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.corsci.2022.110884
Keywords
Oxidation; Mo(Al; Si)2; Alumina scale growth; Diffusion; Phase transformation
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Mo(AlxSi1-x)2 alloy with x in the range of 0.35-0.65 was prepared using a one-step spark plasma sintering method. Oxidation experiments were conducted at 1373 K in low and high oxygen partial pressure environments (10-14 and 0.21 atm) to investigate the exclusive formation of an alpha-Al2O3 scale. The oxidation kinetics followed a parabolic rate law, and the equiaxed and columnar grain growth was attributed to a counter-diffusion process of O and Al along grain boundaries of the Al2O3 scale. The formation of a dense equiaxed alpha-Al2O3 layer contributed to excellent oxidation resistance.
Mo(AlxSi1-x)2 alloy with x in the range of 0.35-0.65 were prepared by a one-step spark plasma sintering. To study the exclusive formation of an alpha-Al2O3 scale, oxidation experiments were conducted in low and high oxygen partial pressure ambient at 1373 K; viz.: 10-14 and 0.21 atm. The oxidation kinetics follows a parabolic rate law after a transient period. A counter-diffusion process of O and Al along grain boundaries of Al2O3 scale is responsible for the equiaxed and columnar grain growth based on a two-layered microstructure. The formation of a dense equiaxed alpha-Al2O3 layer contributes to excellent oxidation resistance.
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