H. Qiao scite author profile

In the present research, the real-time in-situ neutron diffraction measurements under a continuous-loading condition and elastic-viscoplastic self-consistent (EVPSC) polycrystal modeling were employed to study the deformation dynamics and the effect of the deformation history on plastic deformation in a wrought magnesium alloy. The experimental results reveal that pre-deformation delays the activation of the tensile twinning during the subsequent compression, mainly resulting from the residual strains. Detwinning does not occur until the applied stress exceeds the tensile yield strength during reverse loading. It is believed that the grain rotation plays an important role in the elastic region during reverse loading. The EVPSC model, which has been recently updated by implementing the twinning and detwinning model, was employed to characterize the deformation mechanism during strain-path changes. The simulation result predicts well the experimental observation from the real-time in-situ neutron diffraction measurements. The present study provides a new insight of the nature of deformation mechanisms in a hexagonal close-packed (HCP) structured polycrystalline wrought magnesium alloy, which has significant implications for future work on studying the deformation mechanisms of HCP structured materials.

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On the Swift effect and twinning in a rolled magnesium alloy under free-end torsion

Guo

et al. 2013

Scripta Materialia

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A constitutive model of twin nucleation, propagation and growth in magnesium crystals

Guo

Qiao

et al. 2015

Materials Science and Engineering: A

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Modeling of twin formation, propagation and growth in a Mg single crystal based on crystal plasticity finite element method

Qiao

Barnett

2016

International Journal of Plasticity

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H. Qiao

Modeling twinning and detwinning behavior of Mg alloy ZK60A during monotonic and cyclic loading

Investigation of deformation dynamics in a wrought magnesium alloy

On the Swift effect and twinning in a rolled magnesium alloy under free-end torsion

A constitutive model of twin nucleation, propagation and growth in magnesium crystals

Modeling of twin formation, propagation and growth in a Mg single crystal based on crystal plasticity finite element method

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