Iron Nanoparticle Production by the Method of Electric Explosion of Wire

Q3 Engineering

Micro and Nanosystems Pub Date : 2021-01-26 DOI:10.2174/1876402913666210126144945

E. Gryaznova, A. Pustovalov

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引用次数: 1

Abstract

The widespread use of the iron nanopowders connected with widely range of characteristics such as size, magnetic characteristics and high surface area and that is why in the literature are present many researches of its different applications. The work studies the influence of the conditions of the iron wire electrical explosion on the course of the explosion process and the dispersed composition of the resulting metal nanopoweder. Experiments on electrical explosion of iron wires were carried out in the laboratory setup with the different initial conditions of electrical explosion of the iron wire. The influence of the initial wire electrical explosion conditions on the explosion regime, the specific energy input into the conductor, and the specific energy released in the arc stage of discharge are definitely determined. The empirical equations for calculation of the initial wire electrical explosion conditions for providing the critical explosion in the argon medium at a pressure of 2·105 Pa were defined. It has been established that for synthesis of iron nanopowders with a narrow particle size distribution, it is preferable to use modes with a high level of the energy released in the arc stage of the discharge. It was found that disabling the arc stage of the discharge during EEW leads to the decreasing of the average surface particle size by 50%.

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金属丝电爆法制备纳米铁颗粒

纳米铁粉的广泛应用与广泛的特性有关，如尺寸、磁性和高表面积，这就是为什么在文献中有许多关于其不同应用的研究。本文研究了铁丝电爆炸条件对爆炸过程的影响以及产生的金属纳米粉的分散成分。在不同的铁丝电爆炸初始条件下，进行了铁丝电爆炸实验。确定了初始导线电爆炸条件对爆炸状态、输入导线的比能量和放电电弧阶段释放的比能量的影响。给出了在压力为2.105 Pa的氩气介质中临界爆炸条件下导线电爆炸初始条件的经验计算公式。研究结果表明，对于粒径分布较窄的纳米铁粉的合成，采用电弧阶段释放能量较高的模式较为理想。结果表明，在放电过程中，关闭电弧段可使平均表面粒径减小50%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Micro and Nanosystems Engineering-Building and Construction

CiteScore

1.60

自引率

0.00%

发文量