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Precipitation in cold-rolled Al-Sc-Zr and Al-Mn-Sc-Zr alloys prepared by powder metallurgy

Publikace na Matematicko-fyzikální fakulta |
2013

Tento text není v aktuálním jazyce dostupný. Zobrazuje se verze "en".Abstrakt

The effects of cold-rolling on thermal, mechanical and electrical properties, microstructure and recrystallization behaviour of the AlScZr and AlMnScZr alloys prepared by powder metallurgy were studied. The powder Was produced by atomising in argon with 1% oxygen and then consolidated by hot extrusion at 350 degrees C.

The electrical resistometry and microhardness together with differential scanning calorimetry measurements were compared with microstructure development observed by transmission and scanning electron microscopy, X-ray diffraction and electron backscatter diffraction. Fine (sub)grain structure developed and fine coherent Al3Sc and/or Al-3(Sc,Zr) particles precipitated during extrusion at 350 degrees C in the alloys studied.

Additional precipitation of the Al3Sc and/or Al-3(Sc,Zr) particles and/or their coarsening was slightly facilitated by the previous cold rolling. The presence of Sc, Zr-containing particles has a significant antirecrystallization effect that prevents recrystallization at temperatures minimally up to 420 degrees C.

The precipitation of the Al6Mn- and/or Al-6(Mn,Fe) particles of a size similar to 1.0 mu m at subgrain boundaries has also an essential antirecrystallization effect and totally suppresses recrystallization during 32 h long annealing at 550 degrees C. The texture development of the alloys seems to be affected by high solid solution strengthening by Mn.

The precipitation of the Mn-containing alloy is highly enhanced by a cold rolling. The apparent activation energy of the Al3Sc particles formation and/or coarsening and that of the Al6Mn and/or Al-6(Mn,Fe) particle precipitation in the powder and in the compacted alloys were determined.

The cold deformation has no effect on the apparent activation energy values of the Al3Sc-phase and the Al6Mn-phase precipitation.