Preparation of Iron-Based Metallic Powders by the Electroplasma Method
Magazov N. Maulit A. Berezutskiy G. Kussainov A.
October 2025Multidisciplinary Digital Publishing Institute (MDPI)
Crystals
2025#15Issue 10
In this work, the production of iron-containing powders by the electroplasma dispersion method was investigated under various discharge regimes and in electrolytes of different natures (NaCl and Na2CO3). The influence of technological parameters on particle morphology, phase composition, and elemental content was analyzed using X-ray diffraction (XRD), scanning electron microscopy with energy-dispersive spectroscopy (SEM/EDS), as well as laser particle size distribution analysis. It was found that the single-stage mode at 350 V in NaCl electrolyte led to the formation of predominantly irregularly shaped and fragmented particles, with a limited amount of spherical powders. The two-stage mode (350 V for 5 s followed by 250 V) in NaCl ensured a more stable formation of spherical particles with sizes of 60–80 μm; however, it was accompanied by intensive surface oxidation. The highest fraction of spherical powders was obtained in a Na2CO3 electrolyte under the two-stage mode, where homogeneous spheres with diameters of 20–75 μm and smooth surfaces were formed. According to EDS analysis, the powders consisted mainly of iron and oxygen, while in the samples synthesized in Na2CO3, the presence of sodium was detected, indicating the formation of mixed Na–Fe–O oxide phases. XRD confirmed the presence of a metallic α-Fe matrix along with oxide phases Fe2O3 and Fe3O4, while granulometric analysis (D50 ≈ 55 μm) revealed a relatively narrow particle size distribution. The obtained results demonstrate that variation in the discharge regime and electrolyte composition enables targeted control over the morphology and phase composition of the powders, making the electroplasma method a promising approach for producing metallic powders with tailored properties.
advanced powder materials , electroplasma method , metallic powders , particle morphology , particle size distribution , spherical morphology , surface oxidation
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Scientific Center “Protective and Functional Coatings”, D. Serikbayev East Kazakhstan Technical University, 69 Protozanov Street, Ust-Kamenogorsk, 070000, Kazakhstan
“PlasmaScience” LLP, Ust-Kamenogorsk, 070018, Kazakhstan
School of Materials Science and Engineering, Zhejiang University, Hangzhou, 310027, China
Scientific Center “Protective and Functional Coatings”
“PlasmaScience” LLP
School of Materials Science and Engineering
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