Home – Home – Jornals – Chemistry for Sustainable Development 2018 number 5

Operating characteristics of mechanochemically synthesized powder materials for magnetic abrasive treatment depend on microstructure and elemental distribution within composite particles. X-ray diffraction, high-resolution electron microscopy, and Mössbauer spectroscopy were used to explore Fe/SiC, Fe/B₄C, and Fe/TiC mechanocomposites that can be applied as magnetic abrasive working media. Synthesis of iron/abrasive mechanocomposites was carried out in an AGO-2 high-energy planetary ball mill with water cooling under argon. Silicon carbide inclusions of 0.6–5.0 µm size range are homogeneously distributed in composite Fe/SiC particles of 8–110 µm. There is the inter-phase interaction of iron and B₄C abrasive in the Fe–B₄C system upon mechanical activation. Fe/TiC composites were produced by the two-step mechanochemical synthesis. Fine titanium carbide powders generated in the first step of synthesis during activation with the formation of the high energy titanium–carbon system are mechanochemically fused together with iron powder particles in the second stage. Synthesis of TiC is completed within 4 min of mechanical activation with formation of particles of 0.1–0.5 µm size. The Fe/TiC composites are formed within 2 min of mechanical activation of titanium (IV) carbide with iron.