4.7 Article

Hot deformation behavior of Mg-5Li-3Al-2Zn-0.2Zr alloy based on constitutive analysis, processing map, and microstructure evolution

Journal

JOURNAL OF ALLOYS AND COMPOUNDS
Volume 941, Issue -, Pages -

Publisher

ELSEVIER SCIENCE SA
DOI: 10.1016/j.jallcom.2023.168983

Keywords

Mg -Li alloy; Hot compression; Constitutive model; Processing map; Dynamic recrystallization

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The hot deformation behavior of the Mg-5Li-3Al-2Zn-0.2Zr alloy was investigated through hot compression tests. The true stress-strain curves showed dynamic recrystallization. The proposed strain-compensated Zener-Hollomon model accurately predicted the flow stress, and the average activation energy of the alloy was calculated. The microstructure evolution revealed different types of dynamic recrystallization at different temperatures.
The hot deformation behavior of Mg-5Li-3Al-2Zn-0.2Zr alloy was investigated via hot compression tests at 573-673 K/0.001-1 s-1. True stress-strain curves exhibit typical dynamic recrystallization characteristic, the proposed strain-compensated Zener-Hollomon model shows high accuracy in predicting flow stress, and the average activation energy of the alloy is calculated as 164.2196 kJ center dot mol-1. The instability region spans all temperatures at higher strain rates and the cause is the formation of local deformation bands composed of ultrafine recrystallized grains. The optimum deformation processing for Mg-5Li-3Al-2Zn-0.2Zr alloy is determined as 673 K/0.001 s-1. The microstructure evolution reveals that the alloy compressed at 573-623 K mainly undergoes continuous dynamic recrystallization controlled by dislocation cross-slip, and the alloy compressed at 673 K mainly undergoes discontinuous dynamic recrystallization controlled by dislocation climb. (c) 2023 Elsevier B.V. All rights reserved.

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