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Abstract
The viability of developing a nanocrystalline microstructure for the Fe78Co5Nb3 Zr3B5Ge5Cu1 composition using a planetary ball mill was studied. Two starting samples were chosen: an arc-melted ingot and a partially crystallized melt-spun ribbon. The α-Fe phase was detected in both initial samples, although different intermetallic phases were detected in each of them. Milling at 150 rpm, these intermetallics disappeared after 5 h for the melt-spun alloy (RQ) and did not disappear even after 70 h for the arc-melted sample (AM). However, the α-Fe phase became nanosized in both cases. A good thermal stability was found for the RQ alloy after 10 h of milling, although the nanocrystal size increased from ∼8 to ∼20 nm after heating to 973 K. The AM samples exhibited a lower coercivity and a higher magnetization than RQ samples.
Acknowledgements
This work was supported by the Spanish Government and EU FEDER (Project MAT 2004-04618). J.S. Blázquez acknowledges a research contract from the Regional Government of Andalucía (Spain).