Isothermal oxidation of bulk dense Fe2AlB2 and Mn2AlB2 phases in 700-1000° C temperature range

Authors

Tarek A. Elmelegy, The British University in EgyptFollow
Or Messer, Tel Aviv University
Maxim Sokol, Tel Aviv University
Mary Qin Hassig, Drexel University
Michel W. Barsoum, Drexel University

Document Type

Article

Publication Date

2024

Abstract

Herein, the isothermal oxidation of Mn2AlB2 and Fe2AlB2 MAB phases in air was studied. When oxidized at 700 °C, the weight gain kinetics for Mn2AlB2 are sub-cubic up to 96 h as a result of the formation of a Mn2-xAlxO3 protective layer. Severe spallation of the oxides formed was observed at 800 °C and 900 °C, limiting its service temperature. The oxidation kinetics at 900 °C, for Fe2AlB2 become sub-parabolic beyond 60 h due to the formation of a passivating Αl4Β2Ο9 with excellent corner adherence. At both 800 °C and 1000 °C, however, the oxidation is rapid and severe. Therefore, both Mn2AlB2 and Fe2AlB2 may be used in practical application up to 700 °C and 900 °C, respectively. As far as we are aware, Fe2AlB2 is the second transition metal boride that is oxidation resistant at 900 °C; the first, MoAlB, is also a MAB phase.

Recommended Citation

Elmelegy, Tarek A.; Messer, Or; Sokol, Maxim; Hassig, Mary Qin; and Barsoum, Michel W., "Isothermal oxidation of bulk dense Fe2AlB2 and Mn2AlB2 phases in 700-1000° C temperature range" (2024). Mechanical Engineering. 88.
https://buescholar.bue.edu.eg/mech_eng/88