Preparation of the Ferromagnetic Intermetallic Compound Ni3Fe by Solution Combustion Synthesis

IF 0.5 4区 物理与天体物理 Q4 PHYSICS, MULTIDISCIPLINARY
N. H. Amirkhanyan, Y. G. Grigoryan, M. K. Zakaryan, A. S. Kharatyan, H. T. Gyulasaryan, A. B. Harutyunyan
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引用次数: 0

Abstract

The intermetallic compound Ni3Fe was obtained using the solution combustion synthesis (SCS) method, based on heating an aqueous solution containing nitrates of the corresponding metals and hexamethylenetetramine (HMTA) in a nitrogen atmosphere. The limits for the implementation of a self-propagating reaction in the metal nitrates-HMTA system were determined depending on the amount of HMTA in the reacting mixture (n). It has been established that by changing the value of n it is possible to control phase composition and microstructure of the obtained SCS products. The X-ray examinations have shown that at n = 6, a single-phase target product Ni3Fe is obtained, and electron microscopic studies indicated that the product is characterized by a pronounced porous structure because of abundant gas evolution during the SCS process. Based on thermogravimetric analyses of the individual compounds and the mixture of reagents (iron and nickel nitrates with HMTA), a possible mechanism for forming the target Ni3Fe intermetallic compound is discussed. The magnetic characteristics of the synthesized substance have been studied.

Abstract Image

Abstract Image

利用溶液燃烧合成法制备铁磁性金属间化合物 Ni3Fe
摘要 利用溶液燃烧合成(SCS)法,在氮气环境中加热含有相应金属的硝酸盐和六亚甲基四胺(HMTA)的水溶液,获得了金属间化合物 Ni3Fe。根据反应混合物中 HMTA 的含量 (n),确定了在金属硝酸盐-HMTA 系统中进行自推进反应的极限。实验证明,通过改变 n 值,可以控制获得的 SCS 产品的相组成和微观结构。X 射线检查表明,当 n = 6 时,可获得单相目标产物 Ni3Fe,电子显微镜研究表明,由于在 SCS 过程中气体大量进化,该产物具有明显的多孔结构。根据对单个化合物和试剂混合物(铁和镍硝酸盐与 HMTA)的热重分析,讨论了形成目标 Ni3Fe 金属间化合物的可能机制。对合成物质的磁性特征进行了研究。
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来源期刊
CiteScore
1.00
自引率
66.70%
发文量
43
审稿时长
6-12 weeks
期刊介绍: Journal of Contemporary Physics (Armenian Academy of Sciences) is a journal that covers all fields of modern physics. It publishes significant contributions in such areas of theoretical and applied science as interaction of elementary particles at superhigh energies, elementary particle physics, charged particle interactions with matter, physics of semiconductors and semiconductor devices, physics of condensed matter, radiophysics and radioelectronics, optics and quantum electronics, quantum size effects, nanophysics, sensorics, and superconductivity.
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