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Phase selection and nanocrystallization in Cu-free soft magnetic FeSiNbB amorphous alloy upon rapid annealing

机译：无铜软磁FeSiNbB非晶合金快速退火后的相选择和纳米晶化

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Nucleation of soft magnetic Fe3Si nanocrystals in Cu-free Fe74.5Si15.5Nb3B7 alloy, upon rapid (10 s) and conventional (30 min) annealing, was investigated using x-ray diffraction, transmission electron microscopy, Mössbauer spectroscopy, and atom probe tomography. By employing rapid annealing, preferential nucleation of Fe3Si nanocrystals was achieved, whereas otherwise there is simultaneous nucleation of both Fe3Si and undesired Fe-B compound phases. Analysis revealed that the enhanced Nb diffusivity, achieved during rapid annealing, facilitates homogeneous nucleation of Fe3Si nanocrystals while shifting the secondary Fe-B crystallization to higher temperatures resulting in pure soft magnetic nanocrystallization with very low coercivities of ∼10 A/m

机译：使用X射线衍射，透射电子显微镜，Mössbauer光谱和原子探针层析成像技术研究了快速退火（10 s）和常规退火（30 min）下无铜Fe74.5Si15.5Nb3B7合金中软磁性Fe3Si纳米晶的形核。。通过采用快速退火，实现了Fe3Si纳米晶的优先成核，而否则同时存在Fe3Si和不希望的Fe-B化合物相的同时成核。分析表明，在快速退火过程中提高了Nb扩散率，促进了Fe3Si纳米晶的均匀成核，同时将次级Fe-B晶化转移到更高的温度，从而产生了纯软磁纳米晶，其矫顽力非常低，约为10 A / m。

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Morsdorf, L.; Pradeep, K. G.; Herzer, G.; Kovacs, Andras; Dunin-Borkowski, Rafal; Povstugar, I.; Konygin, G.; Choi, P.; Raabe, D.;
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年度 2016
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1. Phase selection and nanocrystallization in Cu-free soft magnetic FeSiNbB amorphous alloy upon rapid annealing [J] . L. Morsdorf, K. G. Pradeep, G. Herzer, Journal of Applied Physics . 2016,第12期

机译：无铜软磁FeSiNbB非晶态合金快速退火的相选择和纳米晶化
2. Atomic scale study of CU clustering and pseudo-homogeneous Fe-Si nanocrystallization in soft magnetic FeSiNbB(CU) alloys [J] . Pradeep K. G., Herzer G., Raabe D. Ultramicroscopy . 2015,第Pta2期

机译：软磁性FeSiNbB（CU）合金中CU团簇和伪均相Fe-Si纳米晶的原子尺度研究
3. NANOCRYSTALLIZATION AND GLASS TRANSITION IN Cu-FREE Fe-Nb-B SOFT MAGNETIC ALLOYS [J] . K. Suzuki, J.M. Cadogan, K. Aoki Scripta materialia . 2001,第8a9期

机译：无铜Fe-Nb-B软磁性合金的纳米晶化和玻璃态转变
4. Influence of Annealing on Magnetic Performance for 1K107 Amorphous-nanocrystalline Soft Magnetic Alloy [C] . Wei Lv Chinese materials congress . 2013

机译：退火对1K107非晶-纳米晶软磁合金磁性能的影响
5. Atomic motion, amorphous phase formation and nanocrystallization study in liquid metals and their alloys [D] . Patel, Ashmi Tarun. 2012

机译：液态金属及其合金的原子运动，非晶相形成和纳米结晶研究
6. Investigation into the Effect of Thermal Treatment on the Obtaining of Magnetic Phases: Fe5Y Fe23B6 Y2Fe14B and αFe within the Amorphous Matrix of Rapidly-Quenched Fe61+xCo10−xW1Y8B20 Alloys (Where x = 0 1 or 2) [O] . Petrica Vizureanu, Marcin Nabiałek, Andrei Victor Sandu, 2020

机译：研究热处理对快速淬火的Fe61 + xCo10-xW1Y8B20合金（x = 0、1或2）的非晶态基体内的Fe5YFe23B6Y2Fe14B和αFe磁性相的获取的影响
7. Phase selection and nanocrystallization in Cu-free soft magnetic FeSiNbB amorphous alloy upon rapid annealing [O] . Morsdorf, L., Pradeep, K. G., Herzer, G., 2016

机译：无铜软磁FeSiNbB非晶态合金快速退火的相选择和纳米晶化

Phase selection and nanocrystallization in Cu-free soft magnetic FeSiNbB amorphous alloy upon rapid annealing

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