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Low temperature enhanced ductility of friction stir processed 5083 aluminum alloy

Bulletin of Materials Science (2011) 34(7) 1447-1453
DOI: 10.1007/s12034-011-0341-8
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Abstract

Commercial 5083 Al rolled plates were subjected to friction stir processing (FSP) with two different processing parameters, having 430 and 850 rpm tool rotational speed with a single traverse feed rate of 90 mm/min. These FSP conditions resulted in two fine grained microstructures of 0·95 μm (430 rpm) and 2·6 μm (850 rpm). Tensile elongations were measured at a relatively low temperature of 250°C at three strain rates, and demonstrated that a decrease in grain size resulted in significantly enhanced ductility and lower forming loads. The occurrence of a relatively high value of strain rate sensitivity, m of 0·45 for a grain size of 0·95 μm, suggests the operation of superplastic deformation under these present experimental conditions. © Indian Academy of Sciences.

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APA

El-Danaf, E. A., El-Rayes, M. M., & Soliman, M. S. (2011). Low temperature enhanced ductility of friction stir processed 5083 aluminum alloy. Bulletin of Materials Science, 34(7), 1447–1453. https://doi.org/10.1007/s12034-011-0341-8

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