Delving into the intrinsic co-relation between microstructure and mechanical behaviour of fine-/ultrafine-grained TWIP steels via TEM and in-situ EBSD observation

被引:17
作者
Cai, Wang [1 ,2 ,4 ]
Sun, Chaoyang [1 ,2 ]
Zhang, Hongjia [3 ]
Wang, Chunhui [1 ,2 ]
Meng, Linghui [1 ,2 ]
Fu, M. W. [4 ]
机构
[1] Univ Sci & Technol Beijing, Sch Mech Engn, Beijing 100083, Peoples R China
[2] Beijing Key Lab Lightweight Met Forming, Beijing 100083, Peoples R China
[3] Natl Univ Def Technol, Coll Intelligence Sci & Technol, Lab Sci & Technol Integrated Logist Support, Vibrat & Acoust Res Grp, Changsha 410073, Peoples R China
[4] Hong Kong Polytech Univ, Res Inst Adv Mfg, Dept Mech Engn, Kowloon, Hong Kong, Peoples R China
基金
中国国家自然科学基金;
关键词
Fine and ultrafine grains; Nano-twin; Mechanical behaviour; In-situ EBSD; TWIP steels; TWINNING-INDUCED PLASTICITY; DISLOCATION-TYPE EVOLUTION; STACKING-FAULT ENERGY; HIGH-YIELD STRENGTH; AUSTENITIC STEEL; DEFORMATION MECHANISMS; DUCTILITY; SIZE; DEPENDENCE; STRESS;
D O I
10.1016/j.matchar.2024.113780
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
To illustrate the microstructural factors of grain refinement for enhancing mechanical properties, the fine-/ultrafine-grained TWIP steels with a product of strength and elongation of similar to 71 GPa center dot% were first prepared by combining rolling and stress relief annealing. Subsequently, the evolution of dislocations, stacking faults, and associated substructures of the fine-/ultrafine-grained TWIP steels was analysed by using in-situ EBSD tensile tests and TEM characterisation of the interrupted strain experiments. The results reveal that the excellent mechanical properties of the TWIP steels are attributed to dislocations and associated dislocation cells, dislocation walls, dislocation tangles, stacking faults and associated Lomer-Cottrell locks (LCs), nano-twins, primary and secondary twins and their interactions during plastic deformation. The density of geometrically necessary dislocations (GNDs) was evaluated based on the modified Ashby's model and compared with experimental results, indicating that grain size heterogeneity can promote the accumulation of GNDs, which facilitates the generation of subgrains and new boundaries to reduce the mean free path (MFP) of dislocations, thus enhancing strain hardening. Meanwhile, the interaction of lamellar primary and secondary twins in fine grains and the generation of stacking faults and nano-twins in ultrafine grains at higher strains can further promote strain hardening to elevate strength. Furthermore, the effects of grain orientation and grain size on the activation and evolution of dislocations and twins were elucidated. In ultrafine grains, twinning is strongly inhibited due to the elevated critical shear stress for twinning, resulting in more stacking faults and nano-twins, but fewer dislocation cells. The present work contributes to an in-depth understanding of the mechanical properties of fine-/ultrafine-grained materials to exploit their potential for industrial applications.
引用
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页数:16
相关论文
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