Strain rate dependence of mechanical behavior in an AlSi10Mg alloy with different states fabricated by laser powder bed fusion

Xiaofeng Wang, Xiaolong Nan, Cunqiang Ma, Tongya Shi, Mingxing Guo, Jianbo Hu, Yonggang Wang
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Abstract

The strain rate dependence of mechanical behavior in an AlSi10Mg alloy with different states fabricated by laser powder bed fusion (LPBF) was investigated systematically via thermodynamic calculations, microstructure characterization and mechanical characteristic evaluation in the present study. The results show that there is a close relationship among the material state, microstructure and dynamic mechanical behavior. Before tensile deformation, the as-built specimen possesses a fine equiaxed grain structure and a typical cellular structure surrounded by continuously distributed particles; the annealed specimen has coarser equiaxed grain structures and particles, but no cellular structure is present. Both the as-built and annealed specimens exhibit weak strain rate sensitivity, and the strain rate sensitivity parameters are 0.01 and 0.024, respectively. Under specific strain rate conditions, the as-built specimen has a higher strength and lower elongation than the annealed specimen. After tensile deformation, there is a significant increase in the dislocation density. Independent of the material state, the dislocation density increases with increasing strain rate. Compared with the as-built specimen, the annealed specimen has a stronger strain rate sensitivity because of the greater dislocation density variation.
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激光粉末床熔融技术制造的不同状态 AlSi10Mg 合金的机械性能与应变速率的关系
本研究通过热力学计算、微观结构表征和力学特性评估,系统地研究了激光粉末床熔融(LPBF)制造的不同状态的 AlSi10Mg 合金的力学行为的应变速率依赖性。结果表明,材料状态、微观结构和动态力学行为之间存在密切关系。拉伸变形前,坯料试样具有较细的等轴晶粒结构和典型的蜂窝状结构,周围有连续分布的颗粒;退火后的试样具有较粗的等轴晶粒结构和颗粒,但不存在蜂窝状结构。坯体和退火试样都表现出弱应变速率敏感性,应变速率敏感性参数分别为 0.01 和 0.024。在特定应变速率条件下,坯料试样的强度比退火试样高,伸长率比退火试样低。拉伸变形后,位错密度显著增加。与材料状态无关,位错密度随着应变速率的增加而增加。与坯料试样相比,退火试样对应变速率的敏感性更强,因为位错密度变化更大。
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