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Optimisation of precipitation for controlling recrystallisation of wrought Fe3Al based alloys |
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| Authors: | S. Kobayashi S. Zaefferer A. Schneider D. Raabe G. Frommeyer |
| Affiliation: | aDepartment of Microstructure Physics and Metal Forming, Max Planck Institute for Iron Research, Max-Planck-Str. 1, D-40237 Düsseldorf, Germany bDepartment of Materials Technology, Max Planck Institute for Iron Research, Max-Planck-Str. 1, D-40237 Düsseldorf, Germany |
| Abstract: | A Fe–26Al–5Cr (at.%) single-phase (:A2/B2/D03) alloy and two-phase (+TiC) alloys with different amounts of TiC particles have been hot rolled at 800 °C and the kinetics of static recrystallisation have been studied. In the alloys with a high amount of TiC, needle-like TiC of more than 1 μm in length formed during cooling after homogenisation in the single-phase region and coarsened during hot rolling. The large particles cause particle stimulated nucleation (PSN) and hence accelerate recrystallisation. In order to accomplish both strengthening by precipitates and inhibition of recrystallisation that deteriorates room-temperature ductility, a thermo-mechanical treatment consisting of hot deformation with a low amount of precipitates and a subsequent heat treatment for further precipitation is proposed. This process is difficult to carry out in the (Fe–26Al–5Cr)–TiC system due to the high precipitation temperature of TiC. The precipitation temperature is significantly decreased by replacing TiC by VC or MoC. |
| Keywords: | A. Iron aluminides (based on Fe3Al) B. Precipitates B. Alloy design C. Recrystallisation and recovery F. Electron microscopy, scanning |
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