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In this work we investigated the mechanism of growth of the coatings produced under various conditions of the Impulse Plasma Deposition (IPD) process. The deposition of the coating material in this method proceeds on the non-heated substrate. Creation of the coating consists of a surface migration of the clusters which were formed in the plasma itself, fallowed by their uncompleted coalescence. We...
The most characteristic feature of the IPD method is that the synthesis proceeds in the impulse plasma itself, with the participation of ions. The IPD growth mechanism, originating from clusters of constituent materials, makes this method particularly suitable for the fabrication of nanocomposite layers.The material synthesised in the present experiment was an Fe–Ti alloy. The sources of Fe and Ti...
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