Transient oxidation of Mo-Si-B alloys: Effect of the microstructure size scale. Rioult, F., A., Imhoff, S., D., Sakidja, R., & Perepezko, J., H. Acta Materialia, 57(15):4600-4613, 2009.
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Paper abstract bibtex
Paper abstract bibtex The composition and phase constituency of Mo-Si-B alloys are known to be important parameters in determining the oxidation response. For three phase Mo + T 2 + Mo 3Si alloys with constant composition and phase constituency, it is observed that a refined microstructure scale provides superior oxidation resistance. The transient stage of oxidation is shortened and the recession of the alloy is decreased with microstructural refinement. In order to identify the phase interaction during the transient stage, oxidation of each of the three alloy phases, Mo, Mo 3Si (A15) and Mo 5SiB 2 (T 2) has been investigated separately. Quantification of the separate phase size distributions by image analysis was coupled with the individual phase oxidation response to evaluate the overall oxidation behavior and phase interaction effects. A kinetic model for oxidation of Mo-Si-B alloys is proposed that incorporates the key role of microstructure scale on the transient stage and provides guidance for microstructure design. © 2009 Acta Materialia Inc.
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abstract = {The composition and phase constituency of Mo-Si-B alloys are known to be important parameters in determining the oxidation response. For three phase Mo + T 2 + Mo 3Si alloys with constant composition and phase constituency, it is observed that a refined microstructure scale provides superior oxidation resistance. The transient stage of oxidation is shortened and the recession of the alloy is decreased with microstructural refinement. In order to identify the phase interaction during the transient stage, oxidation of each of the three alloy phases, Mo, Mo 3Si (A15) and Mo 5SiB 2 (T 2) has been investigated separately. Quantification of the separate phase size distributions by image analysis was coupled with the individual phase oxidation response to evaluate the overall oxidation behavior and phase interaction effects. A kinetic model for oxidation of Mo-Si-B alloys is proposed that incorporates the key role of microstructure scale on the transient stage and provides guidance for microstructure design. © 2009 Acta Materialia Inc.},
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author = {Rioult, F. A. and Imhoff, S. D. and Sakidja, R. and Perepezko, J. H.},
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