J. Mayandi, M. Dias, M. Stange, A. Lind, M. Sunding, A. C. Cerdeira, M. Schrade, B. Belle, T. Finstad, L. Pereira, S. Diplas, P. Carvalho
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引用次数: 0
摘要
本文提出了一种基于高熵合金逐步氧化的纳米结构铁磁复合材料的新方法。氧化能最低的金属的连续“减法”使剩余的固溶体不稳定,导致纳米级的相分离。通过探索多维相图中的不混相路线,该策略可用于促进混合氧化物与具有所需磁性的金属固溶体之间的密切接触。为了证明这一概念,在反应溅射生产的材料中,研究了(CoCrCuFeNi)O x组成空间(0.1 [[EQUATION]] x [[EQUATION]] 1.3)氧化能、相分离和磁性行为之间的关系。研究结果为在复杂的微观结构中寻找具有特定磁性能的相时调整成分指明了方向。
Partial Oxidation of High Entropy Alloys. A Route Towards Nanostructured Ferromagnets?
The present work proposes a new approach to the development of nanostructured ferromagnetic composites based on the progressive oxidation of high entropy alloys. Sequential ‘subtraction’ of the metals with lowest oxidation energy destabilizes the remaining solid solution, inducing phase separation at the nanoscale. By exploring immiscibility routes in the multidimensional phase diagram, the strategy can be used to promote intimate contact between mixed oxides and metallic solid solutions with desired magnetic properties. To demonstrate the concept, the relation between oxidation energy, phase separation and magnetic behavior has been investigated across the (CoCrCuFeNi)O x composition space, for 0.1 [[EQUATION]] x [[EQUATION]] 1.3, in materials produced by reactive sputtering. The results point out directions for tuning the composition when aiming for phases with specific magnetic properties arranged in complex microstructures.
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