Temperature dependence of specific magnetization of metal carbon nano-composites synthesized by arc discharge in liquid

Many of unusual physical and chemical properties of nanoparticles are defined by high ratio of their surface area to volume. Possibilities of changing surface area and its chemical composition open far-reaching perspectives for synthesis of new magnetic materials. Evaporation of metals in carbon-containing liquids or simultaneously with graphite allows the preparation of nanometallic particles in the carbon matrix which properties are scantily known. In the present work, Me-C composites have been produced by the arc discharge method in toluene using a powder metal anode (ADLP); their structure, phase composition and magnetic properties have been studied. The performed studies have shown that Me-C composites have a significantly changed phase composition. α-Fe powder transforms into Fe3C carbide almost completely, and solid carbon solution in nickel, Ni-C forms in the Ni powder. Heating the synthesized nanocomposites also leads to the change in their phase composition: after heating, a crystalline phase, Ni-C disappears in the Ni(B-2) powder, and oxides, FeO and Fe3O4 appear in the powder Fe(B-5-2) as well as the ratio of crystalline phases, α-Fe and Fe3С changes.