Abstract
Cyclic oxidation was characterized as part of a statistically designed, 12-alloy compositional study of 2nd generation single crystal superalloys as part of a broader study to co-optimize density, creep strength, and cyclic oxidation. The primary modification was a replacement of 5 wt. % W by 7% or 12% Mo for density reductions of 2%–7%. Compositions at two levels of Mo, Cr, Co, and Re were produced, along with a midpoint composition. Initially, polycrystalline vacuum induction samples were screened in 1100 °C cyclic furnace tests using 1 h cycles for 200 h. The behavior was primarily delimited by Cr content, producing final weight changes of −40 mg/cm2 to −10 mg/cm2 for 0% Cr alloys and −2 mg/cm2 to +1 mg/cm2 for 5% Cr alloys. Accordingly, a multiple linear regression fit yielded an equation showing a strong positive Cr effect and lesser negative effects of Co and Mo. The results for 5% Cr alloys compare well to −1 mg/cm2, and +0.5 mg/cm2 for Rene′ N4 and Rene′ N5 (or Rene′ N6), respectively. Scale phases commonly identified were Al2O3, NiAl2O4, NiTa2O6, and NiO, with (Ni,Co)MoO4 found only on the least resistant alloys having 0% Cr and 12% Mo. Scale microstructures were complex and reflected variations in the regional spallation history. Large faceted NiO grains and fine NiTa2O6 particles distributed along NiAl2O4 grain boundaries were typical distinctive features. NiMoO4 formation, decomposition, and volatility occurred for a few high Mo compositions. A creep, density, phase stability, and oxidation balanced 5% Cr, 10% Co, 7% Mo, and 3% Re alloy was selected to be taken forward for more extensive evaluations in single crystal form.
Highlights
The cyclic oxidation of superalloys has been an active topic for many decades of research in high temperature materials
Continuous thermogravimetric analysis was only performed on selected samples with high Mo. Other higher (Mo) content for the purpose of NiMoO4 elucidation
Behavior similar to that of highly oxidation resistant 2nd generation single crystal superalloys was approached in this preliminary screening test
Summary
The cyclic oxidation of superalloys has been an active topic for many decades of research in high temperature materials. It is not the intent of the present study to revisit the many nuances that arise for various specific alloys; the general compositional trends of conventional alloys can be surmised from reviews [1,2]. Ni-base superalloys can be divided into Al2O3 and Cr2O3-formers, though other oxides will be present. In this discussion and paper, all alloy compositions will be expressed in weight percent. It can be said that some Cr and Ta are beneficial in Al2O3-forming alloys, while
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