SYNTHESIS AND CHARACTERIZATION OF NANOSTRUCTURED MATERIALS BASED ON Fe50Co50 AND Fe75Co25

Z. C. Ávila, María-Angélica Consuegra-Peña, M. D. Baró, S. Suriñach
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Abstract

Nowadays, nanostructured magnetic materials are of great interest both in basic research on magnetism and in technological applications. The interest lies in the nanometric particle size, which affects their magnetic properties. Nanostructured magnetic materials based on FeCo have relevant soft magnetic properties, useful in potential applications in information storage equipment and devices. In this paper, nanostructured materials based on Fe50Co50 and Fe75Co25 were synthesized using the mechanical alloying method. The influence that the composition and milling time have on the morphology, structure and magnetic properties of nanostructured powders was studied by means of X-ray diffraction, Scanning Electron Microscopy (SEM) and Vibrating Sample Magnetometer (VSM). After 30 h milling, X-ray diffraction results confirmed a body-centred cubic nanostructured Fe phase with a crystallite size of about 13.6 nm for Fe50Co50 and 22 nm for Fe75Co25, and SEM analysis showed the morphology evolution of the powder particles and the lamellar structure. A maximum saturation magnetization (Ms) of 275 emu/g was obtained for Fe75Co25 which had been milled for 30 h.
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基于Fe50Co50和Fe75Co25纳米结构材料的合成与表征
目前,纳米磁性材料在磁学基础研究和技术应用方面都受到广泛关注。人们的兴趣在于纳米级的颗粒大小,这影响了它们的磁性能。基于FeCo的纳米磁性材料具有相关的软磁性能,在信息存储设备和器件中具有潜在的应用前景。本文采用机械合金化方法合成了基于Fe50Co50和Fe75Co25的纳米结构材料。采用x射线衍射、扫描电子显微镜(SEM)和振动样品磁强计(VSM)等测试手段,研究了粉末成分和磨矿时间对纳米粉体形貌、结构和磁性能的影响。铣削30 h后,x射线衍射结果证实了Fe50Co50和Fe75Co25晶粒尺寸分别为13.6 nm和22 nm的体心立方纳米结构Fe相,SEM分析显示了粉末颗粒的形貌演变和片层结构。Fe75Co25的最大饱和磁化强度(Ms)为275 emu/g。
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