Abstract
A variety of elevated temperature testing has been performed on Fe3Al containing 2% and 5% chromium that was produced by inert gas atomization and consolidated by hot extrusion. Creep rupture tests indicate that the 5% chromium results in a slight reduction of time to rupture over the 2% chromium alloy. However, Larson–Miller plots indicate that this difference may be insignificant. Elevated temperature tensile and compressive tests have been performed, and both 2% and 5% chromium alloys exhibit wavy flow for certain strain rate–temperature regimes, which may be evidence of dynamic strain aging. Although total elongations of greater than 100% can be obtained by tensile testing at 800 °C, strain rate jump tests indicate that these materials do not have strain rate sensitivity values as high as those typically found in superplastic materials.
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