期刊
SCRIPTA MATERIALIA
卷 225, 期 -, 页码 -出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.scriptamat.2022.115155
关键词
Fe -based metallic glasses; Primary crystallization; Diffusion; Flash DSC; TEM
During the crystallization of Fe-based metallic glasses, the precipitation of nanocrystals smaller than the exchange length has been found effective in reducing coercivity and increasing saturation magnetization. Rapid heating above 100 K/s can produce nanocrystals well below the exchange length in binary Fe-B alloys. The influence of different heating rates on the crystallization behavior of an amorphous Fe85B15 alloy was investigated, revealing a critical heating rate above which the formation of detrimental Fe3B nanocrystals occurs.
During the crystallization of Fe-based metallic glasses the precipitation of the BCC-Fe nanocrystals smaller than the exchange length (30-40 nm) has been reported as an effective strategy for a reduced coercivity and an increased saturation magnetization. In binary Fe-B alloys it has been shown that nanocrystals well below the exchange length can be obtained by rapid heating above 100 K/s. In order to determine if the fast heating process can yield a further refinement in nanocrystal size, the influence of different heating rates (0.17-5000 K/s) on the crystallization behavior of an amorphous Fe85B15 alloy was investigated using Flash DSC and TEM. Above a critical heating rate (500 K/s), the number density and diameters of BCC-Fe nanocrystals become saturated due to diffusion-field impingement that enriches the amorphous matrix with B that leads to the precipitation of Fe3B nanocrystals that deteriorate the magnetic properties.
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