Abstract
Twinning and shear bands are two main deformation structures in magnesium alloys at low temperatures, however, the relationship between these two deformation structures is still under debate. To clarify their relationship and behaviours at low temperatures, rolling tests to various thickness reductions at room temperature (RT) and liquid nitrogen temperature (LNT) were conducted for AZ31 magnesium alloys. The evolutions of shear bands and twinning, and their interactions with geometrically necessary dislocation (GND), were observed during the RT- and LNT-rolling process. Abundant shear bands, evolving from {101¯1}-{101¯2} double twins (DTWs), were observed in the RT-rolled samples, while a high quantity of twins, including {101¯2} tension twins (TTWs), twin-twin interactions and twinning sequence, were observed in the LNT-rolled samples. More importantly, a rarely observed twinning sequence behaviour, namely primary TTW-TTW interactions→ secondary TTW-TTW interactions, creating a 45° <202¯1¯> misorientation peak, was studied. Abundant GNDs accumulated around these twin-twin interactions, twinning sequence, DTWs and shear bands, while the GND density was low around TTWs. This research delivers a systematic investigation into the deformation structures in Mg alloys during the rolling process from RT to cryogenic temperature and provides insights into the newly discovered twinning sequence and twin-twin interactions.
Highlights
IntroductionK. Zhang et al / Materials and Design 193 (2020) 108793 poor formability and high cost during the rolling process
Similar results were reported in the high strain-rate plane strain compression tests [46] and rolling tests [47]
A detailed microstructure analysis was performed on the room temperature (RT)- and liquid nitrogen temperature (LNT)-rolled AZ31 magnesium alloys
Summary
K. Zhang et al / Materials and Design 193 (2020) 108793 poor formability and high cost during the rolling process. Zhang et al / Materials and Design 193 (2020) 108793 poor formability and high cost during the rolling process This motivates the needs to understand their deformation behaviours and microstructures in the rolling process of Mg alloys. Shear bands and deformation twins are the dominant deformation features of the microstructure during the rolling process [5]. A deep understanding of the deformation structures, especially the relationships and evolution of shear bands and twins during the rolling process, is essential to reveal the deformation essence of Mg alloys
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