Manuel AcostaThe University of Texas at El PasoUTEP Resume Senior Project Progress Presentation
Project Title: Oxidation Behavior of RuAl Alloys
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Introduction
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RuAl Phase Diagram (B. Tyron) -- RuAl is an intermetallic compound often considered a good candidate for high temperature applications. It has a B2 structure and melts at approximately 2060oC.Combines good ductility, oxidation, strength and thermodynamic properties. |
Objectives
- To describe and compare the oxidation behavior of alloys containing Ru, Al, Mo and Cr produced in different compositions by the tri-arc, arc-melting, floating and induction methods.
- Study the type of oxide formed and its oxidation resistance
- Compare samples in terms of their fracture toughness and oxidation resistance using data previously obtained by T.D. Reynolds and D.R. Johnson.
Approach
- Cyclic oxidation tests at 1100oC
- Determine loss of mass per surface area
- Characterize oxide scales by microscopy and XRD
- Characterize the change in microstructure in the scale/matrix interface by SEM/EDS.
Findings
- Mo samples showed poor oxidation behavior (non-protective scale)
- Loss of weight in Mo samples due to MoO3 vaporization and spoliation
- Cr samples demonstrated good oxidation behavior (protective scale)
- Binary RuAl has a good oxidation behavior, but is a brittle material, Oxidation process occurs mainly in the eutectic region forming a thin layer of Ru and Al, Aluminum is lost
- Cr samples shown the best fracture toughness and oxidation resistance.
 Figure 2: 50X micrograph of the oxide scale for a Ru-Al-Mo alloy. |
 1000X SEM image of the scale/matrix interface of a Ru-Al-Mo alloy. |
Recommendations
- Further characterization of the oxide /matrix interface in the Cr and RuAl samples
- Make same procedure for different cyclic oxidation temperatures
- By getting rid of eutectic in binary, RuAl oxidation resistance is improved.