The effect of the multi-pass non-circular drawing sequence on mechanical properties and microstructure evolution of low-carbon steel
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- 作者:Jung Wan Lee ; Hyun Moo Baek ; Sun Kwang Hwang ; Il-Heon Son ; Chul Min Bae ; Yong-Taek Im
- 关键词:Multi-pass non-circular drawing process ; Grain refinement ; High-strength ; High-ductility ; Wire-drawing process ; Electron backscattering diffraction
- 刊名:Materials and Design
- 出版年:March, 2014
- 年:2014
- 卷:55
- 期:Complete
- 页码:898-904
- 全文大小:2714 K
文摘
In this study, the multi-pass non-circular drawing sequence was investigated for manufacturing high-strength wires with better ductility in a simple continuous way without adding additional alloys and heat treatment considering the effect of microstructure evolution and die geometry of the sequence on the mechanical properties of low-carbon steel during the process. For this purpose, the non-circular drawing sequence was designed and applied up to the 10th pass at room temperature. Mechanical properties and microstructure evolution of the specimen processed by the sequence were investigated by tension, Vickers micro-hardness, electron backscattering diffraction (EBSD), and fatigue tests compared with those for the conventional wire-drawing process. From the EBSD results, the higher low angle grain boundaries length per unit area and smaller average grain size of the specimen processed by the non-circular drawing sequence were obtained than those of the specimen processed by the wire-drawing process for the 8th pass. These results indicated that more plastic deformation was imposed in the material by the non-circular drawing sequence, resulting in grain refinement of the deformed specimen compared to the wire-drawing process. It is demonstrated that the multi-pass non-circular drawing sequence could be beneficial in producing fine-grained wires with improved ultimate tensile strength, ductility, and fatigue property by simply changing drawing dies geometry of the conventional wire-drawing process.