Journal
MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING
Volume 669, Issue -, Pages 205-217Publisher
ELSEVIER SCIENCE SA
DOI: 10.1016/j.msea.2016.05.086
Keywords
Al-Mg alloy; Superplasticity; Microstructural evolution; Al3ScxZr1-x particles; Grain boundary sliding
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Funding
- China Postdoctoral Science Foundation [2014M552149]
- Hunan Provincial Innovation Foundation For Postgraduate [CX2016B041]
- Open-End Fund for the Valuable and Precision Instruments of Central South University [CSUZC201614]
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A new Al-Mg-0.15% Sc-0.10% Zr (wt%) alloy sheet with an average (sub)grain size of similar to 2.25 mu m was processed by a simple thermomechanical processing. Excellent superplastic (elongations of >= 800%) can be achieved at a temperature range of 450-500 degrees C and a high strain rate range of 1 x 10(-2)-1 x 10(-1) s(-1). A maximum elongation of similar to 1579% was obtained at 475 degrees C and a high strain rate of 5 x 10(-2) s(-1). Electron back scatter diffraction analysis and transmission electron microscopy results showed that superior superplastic ductility of the Al-Mg-Sc-Zr alloy can be ascribed to the complete transformation of low angle grain boundaries to high angle grain boundaries due to the occurrence of continuous dynamic recrystallization and the presence of stable coherent Al3ScxZr1-x particles that effectively impede the growth of the grains during superplastic deformation. Besides, strong beta-fiber rolling textures gradually weakened, and random textures were predominant in the superplastic deformed alloy. Analyses on the superplastic data revealed that the average strain rate sensitivity parameter and the average activation energy of the Al-Mg-Sc-Zr alloy were similar to 0.48 and similar to 84.4 kJ/mol(-1), respectively. All results indicated that the main superplastic deformation mechanism was grain boundary sliding. (C) 2016 Elsevier B.V. All rights reserved.
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