Abstract
Hot tearing behavior and microstructure mechanism of Mg–6.5Zn–xY–0.5Zr (x = 1, 2, 4 and 6) alloys are investigated. The predicted and measured hot tearing susceptibility are in the following order: Mg–6.5Zn–2Y–0.5Zr > Mg–6.5Zn–1Y–0.5Zr > Mg–6.5Zn–4Y–0.5Zr > Mg–6.5Zn–6Y–0.5Zr. The microstructure mechanism of hot tearing was analyzed by x-ray diffraction, electron back scatter diffraction and scanning electron microscopy. The results illustrated that hot tearing susceptibility of the alloy only containing I-phase is lower than that of the alloy containing I-phase and less W-phase, and higher than the alloys containing I-phase and more W-phase. The hot tearing susceptibility of the alloys containing I-phase and W-phase will be decreased with the increase of the amount of W-phase. In addition, the hot tearing susceptibility of the alloys dominated by liquid film theory is higher than that dominated by dendritic bridging theory.
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