1 Collaborative Innovation Center of Steel Technology, University of Science and Technology Beijing, Beijing 100083, China
2 School of Materials Science and Engineering, University of Science and Technology Beijing, Beijing 100083, China
3 Laboratory for Excellence in Advanced Steel Research, Materials Science and Engineering Program, Department of Metallurgical, Materials and Biomedical Engineering, University of Texas at El Paso, El Paso, TX 79968, USA
Softening and recrystallization behavior of a new class of ferritic steel
1 Collaborative Innovation Center of Steel Technology, University of Science and Technology Beijing, Beijing 100083, China
2 School of Materials Science and Engineering, University of Science and Technology Beijing, Beijing 100083, China
3 Laboratory for Excellence in Advanced Steel Research, Materials Science and Engineering Program, Department of Metallurgical, Materials and Biomedical Engineering, University of Texas at El Paso, El Paso, TX 79968, USA
摘要 In order to clarify the recrystallization mechanism of low-density δ-ferrite steel Fe–4Al–2Ni, interrupted and single-pass compression tests were carried out. In this regard, five deformation temperatures (750–950 at an interval of 50 °C) and different hold time were selected. It was observed that the softening and recrystallization fraction was enhanced with increased deformation temperature and hold time. The original grain boundaries were the preferred nucleation sites for recrystallized grains, and recrystallization had an impact on obtaining homogeneous and fine-grained structure. Recrystallization in the ferritic alloy commenced after a significant degree of softening, and the softening associated with recovery was appreciably less. The optimum rolling deformation temperature was identified to be greater than 900 °C.
Abstract:In order to clarify the recrystallization mechanism of low-density δ-ferrite steel Fe–4Al–2Ni, interrupted and single-pass compression tests were carried out. In this regard, five deformation temperatures (750–950 at an interval of 50 °C) and different hold time were selected. It was observed that the softening and recrystallization fraction was enhanced with increased deformation temperature and hold time. The original grain boundaries were the preferred nucleation sites for recrystallized grains, and recrystallization had an impact on obtaining homogeneous and fine-grained structure. Recrystallization in the ferritic alloy commenced after a significant degree of softening, and the softening associated with recovery was appreciably less. The optimum rolling deformation temperature was identified to be greater than 900 °C.
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