Influence of annealing treatment on grain growth, texture and magnetic properties of a selective laser melted Fe-6.5 wt% Si alloy

Lulan Jiang, Haijie Xu, Yuhan Zhan, Dewei Zhang, Xuedao Shu, Zixuan Li, Jinrong Zuo
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Abstract

The high-density Fe-6.5 wt% Si soft magnetic alloy samples were prepared using selective laser melting (SLM) technology. Annealing treatments with different temperatures were employed to promote grain growth. The microstructure, texture and magnetic hysteresis loops were characterized, aiming to investigate the relationship between microstructure and magnetic properties. The as-printed Fe-6.5 wt% Si alloy had weak texture and low density of ordered phases, and was featured by coarse grains in the top-view section and columnar grains in the side-view section. After annealing at 800 °C–1000 °C, the textures were slightly weakened, while the grain growth was not significant. Increasing the annealing temperature to 1100 °C led to abnormal grain growth behaviors. The grains of the as-printed Fe-6.5 wt% Si alloy showed randomly abnormal growth behaviors rather than oriented growth, which may be related to the low stored energy and initial size advantage before annealing. After annealed at 1100 °C for 1 h, the abnormal grain growth and the formation of large Goss ({110}<001>) and Cube ({100}<001>) grains resulted in microstructure coarsening and texture optimization. Thus, the corresponding ring-shaped sample exhibited excellent magnetic performance. The magnetic induction B is 1.21 T, the maximum relative permeability is 14.71 × 10 and the core loss P is 11.69 W/kg.
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退火处理对选择性激光熔化的 Fe-6.5 wt% Si 合金的晶粒生长、质地和磁性能的影响
利用选择性激光熔化(SLM)技术制备了高密度 Fe-6.5 wt% Si 软磁合金样品。采用不同温度的退火处理促进晶粒生长。对样品的微观结构、质地和磁滞回线进行了表征,旨在研究微观结构与磁性能之间的关系。压印后的 Fe-6.5 wt% Si 合金质地较弱,有序相密度较低,顶视图部分为粗大晶粒,侧视图部分为柱状晶粒。在 800 ℃-1000 ℃ 退火后,纹理略有减弱,晶粒生长不明显。将退火温度提高到 1100 ℃会导致异常的晶粒生长行为。原样印刷的 Fe-6.5 wt% Si 合金的晶粒表现出随机的异常生长行为,而不是取向生长,这可能与退火前的低储能和初始尺寸优势有关。在 1100 °C 下退火 1 小时后,晶粒异常生长,形成了大的 Goss({110})和 Cube({100})晶粒,导致了微观结构的粗化和纹理优化。因此,相应的环形样品表现出优异的磁性能。磁感应强度 B 为 1.21 T,最大相对磁导率为 14.71 × 10,磁芯损耗 P 为 11.69 W/kg。
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