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

Changing the structure and magnetic properties of composite Al₂O₃/Co(P) particles was investigated in a ball mill. The initial particles were produced by electroless plating of the crystal Co₉₅P₅ shell characterized by the hexagonal dense packed structure into Al₂O₃ granules by chemical reduction. It was determined that the sequences of phase transitions during mechanoactivation was different for Co₉₅P₅ particles and composite Al₂O₃/Co₉₅P₅ species. The use of composite particles allows significantly reducing mechanoactivation time required for producing the optimum phase ratio of α/β cobalt in powders. Grain size reduction during milling causes an increase in the fraction of superparamagnetic particles reaching 12 % upon mechanical activation for 75 min, which causes a decrease in the value of saturation magnetization. Changing the magnetic properties of composite particles during ball milling correlates with structural modification of samples. The amount of the hexagonal dense packed cobalt phase in the sample determines the value of the field of local magnetic anisotropy. The latter is reduced from 8.4 to 3.8 kOe upon an increase in mechanoactivation time to 75 min.