Formation of stable nanostructured phases in plasma-jet-treated Ni-Cr powder coatings
Darya AlontsevaEast-Kazakhstan State Technical University, Ust’-Kamenogorsk, KazakhstanS. N. BratushkaSumy Institute for Modification of Surface, Sumy State University, ul. Rimskogo-Korsakova 2, Sumy, 40007, UkraineM. V. Il’yashenkoSumy State UniversityN. A. MakhmudovSamarkand Branch of the Tashkent University of Information Technology, Amir Temur str. 9, Samarkand, 703000, UzbekistanNadezhda ProkhorenkovaEast-Kazakhstan State Technical University, Ust’-Kamenogorsk, KazakhstanE. L. OnanchenkoSumy Institute for Modification of Surface, Sumy State University, ul. Rimskogo-Korsakova 2, Sumy, 40007, UkraineA. I. NovgorodtsevSumy Institute for Modification of Surface, Sumy State University, ul. Rimskogo-Korsakova 2, Sumy, 40007, UkraineА. В. ПшикSumy Institute for Modification of Surface, Sumy State University, ul. Rimskogo-Korsakova 2, Sumy, 40007, UkraineVladyslav RogozSumy Institute for Modification of Surface, Sumy State University, ul. Rimskogo-Korsakova 2, Sumy, 40007, Ukraine
ABI
Abstract
Samples of steel St3 with Ni-Cr-B-Si-Fe coatings deposited using a plasma jet with subsequent partial melting of the coatings by a plasma jet have been investigated for the first time using the methods of Rutherford backscattering spectroscopy, scanning electron microscopy, X-ray fluorescence analysis, X-ray photoelectron spectroscopy, and nanoindentation. The structure and the phase and elemental compositions of these coatings have been studied. Ni-based nanocrystalline phases and CrNi3-based microcrystalline phases with crystals from 50 to 150 nm in size, extended defects of the microstructure, and nanoregions with different orientations of the crystal lattice and grain sizes on the order of 2–3 nm have been found.
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