Abstract
In the present study, a coarse grained AZ31 plate was refined by twin boundaries (TBs) and grain boundaries (GBs), respectively. A comparative study about the different effects of grain refinements by GBs and by TBs on tension-compression yield asymmetry was performed. Our results show that both the refinements by GBs and by TBs increase the tensile and compressive yield strengths, but to a different degree. TBs are more effective to harden twinning, but yield a lower strengthening against prismatic <a> slip, and a much lower tension-compression yield asymmetry is thus obtained. Both the differences in boundary coherence and misorientation between GBs and TBs affect the hardening. The misorientation of TBs provides a lower geometric compatibility factor (a higher hardening) for both prismatic <a> slip and twinning than that of GBs, which in detail is the result of the much higher angle between c-axes of the two sides of TBs (about 86°) than GBs (0–50°). It is found that, for hardening of prismatic <a> slip, boundary coherence plays a more important role than misorientation. With regard to twinning, the different misorientation of TBs from GBs mainly accounts for their different hardening effects.
Highlights
In the present study, a coarse grained AZ31 plate was refined by {1012} twin boundaries (TBs) and grain boundaries (GBs), respectively
Our results show that both the refinements by GBs and by TBs increase the tensile and compressive yield strengths, but to a different degree. {1012}TBs are more effective to harden {1012} twinning, but yield a lower strengthening against prismatic slip, and a much lower tension-compression yield asymmetry is obtained
We reported a higher efficiency of TBs than GBs in reducing tension-compression yield asymmetry of an AZ31 plate
Summary
A coarse grained AZ31 plate was refined by {1012} twin boundaries (TBs) and grain boundaries (GBs), respectively. A comparative study about the different effects of grain refinements by GBs and by TBs on tension-compression yield asymmetry was performed. {1012}TBs are more effective to harden {1012} twinning, but yield a lower strengthening against prismatic slip, and a much lower tension-compression yield asymmetry is obtained. Both the differences in boundary coherence and misorientation between GBs and TBs affect the hardening. It is speculated that grain refinements by GBs and by TBs would pose different effects on reducing yield www.nature.com/scientificreports/. We reported a higher efficiency of TBs than GBs in reducing tension-compression yield asymmetry of an AZ31 plate.
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