Quenching-rate dependence of the magnetic and mechanical properties of nanocrystalline Fe/sub 73.5/Cu/sub 1/Nb/sub 3/Si/sub 13.5/B/sub 9/ ribbons obtained by Joule heating

Allia P.; Tiberto P.

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Quenching-rate dependence of the magnetic and mechanical properties of nanocrystalline Fe/sub 73.5/Cu/sub 1/Nb/sub 3/Si/sub 13.5/B/sub 9/ ribbons obtained by Joule heating

机译：焦耳加热获得的纳米晶Fe / sub 73.5 / Cu / sub 1 / Nb / sub 3 / Si / sub 13.5 / B / sub 9 /薄带的磁性和机械性能的淬灭速率依赖性

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Four Fe/sub 73.5/Cu/sub 1/Nb/sub 3/Si/sub 13.5/B/sub 9/ ribbons obtained by melt spinning with different quenching rates were submitted to direct current (DC) Joule-heating treatment in vacuum. On-line measurements of the electrical resistance were performed in the course of Joule heating in order to study the development of the nanocrystalline phase. The results show that the nanocrystallization kinetics is strongly dependent on the initial degree of structural disorder. The increase in both initial magnetic permeability and brittleness upon nanocrystallization were observed to be affected by the initial topological disorder.

机译：通过在不同的淬火速率下熔融纺丝获得的四根Fe / sub 73.5 / Cu / sub 1 / Nb / sub 3 / Si / sub 13.5 / B / sub 9 /薄带经过真空直流电（DC）焦耳加热处理。为了研究纳米晶相的发展，在焦耳加热过程中进行了电阻的在线测量。结果表明，纳米结晶动力学强烈依赖于结构无序的初始程度。观察到初始磁导率和脆性在纳米晶上的增加都受到初始拓扑结构紊乱的影响。

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《IEEE Transactions on Magnetics》 |1994年第2期|P.461-463|共3页
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Allia P.; Tiberto P.;
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中图分类磁性材料、铁氧体;
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1. Neutron irradiation effects on the structural, magnetic and mechanical properties of amorphous and nanocrystalline Fe/sub 73.5/Cu/sub 1/Nb/sub 3/Si/sub 13.5/B/sub 9/ [J] . Skorvanek I., Gerling R. IEEE Transactions on Magnetics . 1994,第2期

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2. Induced Magnetic Anisotropy and Stress-Impedance Effect in Nanocrystalline Fe_(73.5)Cu_(1)Nb_(3)Si_(13.5)B_(9) Ribbons [J] . Deren Li, Zhichao Lu, Shaoxiong Zhou IEEE sensors journal . 2006,第4期

机译：纳米晶Fe_（73.5）Cu_（1）Nb_（3）Si_（13.5）B_（9）薄带中的磁各向异性和应力阻抗效应
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Quenching-rate dependence of the magnetic and mechanical properties of nanocrystalline Fe/sub 73.5/Cu/sub 1/Nb/sub 3/Si/sub 13.5/B/sub 9/ ribbons obtained by Joule heating

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