Heterogeneous twin structure and spontaneous plastic strain evolution in extruded AZ31 Mg alloy under multi-degree-of-freedom reciprocating torsion-compression

Mingyang Jiao; Xuejian Yang; Zhijia Liu; Ruihong Li; Baodong Shi; Yan Peng; Xianhua Chen

doi:10.20517/microstructures.2025.105

Microstructures ›› 2026, Vol. 6 ›› Issue (2) -2026046. DOI: 10.20517/microstructures.2025.105

Research Article

Heterogeneous twin structure and spontaneous plastic strain evolution in extruded AZ31 Mg alloy under multi-degree-of-freedom reciprocating torsion-compression

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¹School of Mechanical Engineering, Yanshan University, Qinhuangdao 066004, Hebei, China.

²School of Material and Metallurgy, Inner Mongolia University of Science & Technology, Baotou 014010, Inner Mongolia, China.

³National Engineering Research Center for Magnesium Alloys (CCMg), School of Materials Science and Engineering, Chongqing University, Chongqing 400044, China.

⁴Chongqing Institute of New Energy Storage Materials and Equipment, Chongqing 401135, China.

⁵National Engineering Research Center for Equipment and Technology of Cold Rolled Strip, Yanshan University, Qinhuangdao 066004, Hebei, China.

⁶College of Mechanical Engineering, Chongqing University of Technology, Chongqing 400054, China.

Correspondence to: Prof. Baodong Shi, National Engineering Research Center for Magnesium Alloys (CCMg), School of Materials Science and Engineering, Chongqing University, Chongqing 400044, China; Chongqing Institute of New Energy Storage Materials and Equipment, Chongqing 401135, China; National Engineering Research Center for Equipment and Technology of Cold Rolled Strip, Yanshan University, Qinhuangdao 066004, Hebei, China. E-mail: baodong.shi@ysu.edu.cn

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Abstract

The microstructural evolution and mechanical responses under multi-degree-of-freedom reciprocating torsion-compression deformations remain to be fully elucidated, particularly regarding the Swift and inverse Swift effects and their physical mechanisms, which constrain the design and formability of textured Mg alloys. Therefore, the multi-degree-of-freedom reciprocating pre-torsional-compressive loadings along extrusion direction (ED) were specifically designed. The twinning behaviours and the radial distribution of twin structures were systematically analysed. The driving mechanisms of the Swift and subsequent inverse Swift effects were discussed. Results demonstrated that free end torsion (FET) deformation induced radially linear-gradient twinning structure, while reverse FET (RFET) loading triggered FET twins detwinning and extensive {10$ \bar{1} $2} tensile twin activation within the basal textures, driving the reverse FET twin texture further tend towards ED aggregation. FET twins inhibited the nucleation of RFET twins, resulting in the formation of a distinctive inverse-gradient twinning structure. 65% of the Swift-effect strain under low-strain FET (γ < 0.12) was coordinated by dislocation slip, whereas the misfit strain induced by FET twins accommodated more than 85% of the axial shortening during γ_FET = 0.38. RFET-stage axial elongation was governed by detwinning, with subsequent axial shortening attributable to large-scale RFET twin activation. {10$ \bar{1} $2} tensile twins dominated initial free rotational compression (FRC) strain, the interactions between the release of residual shear stress and the reverse shear strain component induced by FRC twins results in the circumferential motionlessness during initial FRC. Proliferation of FRC twins promoted cumulative circumferential shear strain component, inducing further macroscopic reverse spontaneous rotation.

Keywords

Magnesium alloy / multi-degree-of-freedom / reciprocating torsion / compression / twinning / inverse Swift effect

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Mingyang Jiao, Xuejian Yang, Zhijia Liu, Ruihong Li, Baodong Shi, Yan Peng, Xianhua Chen. Heterogeneous twin structure and spontaneous plastic strain evolution in extruded AZ31 Mg alloy under multi-degree-of-freedom reciprocating torsion-compression. Microstructures, 2026, 6(2): -2026046 DOI:10.20517/microstructures.2025.105

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