Journal
METALLURGICAL AND MATERIALS TRANSACTIONS A-PHYSICAL METALLURGY AND MATERIALS SCIENCE
Volume 31, Issue 3, Pages 691-701Publisher
MINERALS METALS MATERIALS SOC
DOI: 10.1007/s11661-000-0011-8
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Using equal-channel angular (ECA) pressing at room temperature, the grain sizes of six different commercial aluminum-based alloys (1100, 2024, 3004, 5083, 6061, and 7075) were reduced to within the submicrometer range. These grains were reasonably stable up to annealing temperatures of similar to 200 degrees C and the submicrometer grains were retained in the 2024 and 7075 alloys to annealing temperatures of 300 degrees C. Tensile testing after ECA pressing through a single pass, equivalent to the introduction of a strain of similar to 1, showed there is a significant increase in the values of the 0.2 pet proof stress and the ultimate tensile stress (UTS) for each alloy with a corresponding reduction in the elongations to failure. It is demonstrated that the magnitudes of these stresses scale with the square root of the Mg content in each alloy. Similar values for the proof stresses and the UTS were attained at the same equivalent strains in samples subjected to cold rolling, but the elongations to failure were higher after ECA pressing to equivalent strains >1 because of the introduction of a very small grain size. Detailed results for the 1100 and 3004 alloys show goad agreement with the standard Hall-Fetch relationship.
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