Главная – Журналы – Химия в интересах устойчивого развития 2007 номер 2

High-energy ball-milling in hexane medium was employed to prepare amorphous Al-La-Fe-Ni alloys of three different nominal compositions (Al₈₂La₁₀Ni₄Fe₄, Al₈₅La₉Ni₃Fe₃ and Al₈₈La₆Ni₃Fe₃). Using a planetary ball mill (AGO-2) at a rotational speed of 300 rpm, nearly complete amorphization could be achieved for the Al₈₂La₁₀Ni₄Fe₄ alloy after milling for 350 h. In contrast, the Al₈₅La₉Ni₃Fe₃ and Al₈₈La₆Ni₃Fe₃ samples remained crystalline to a certain extent even after prolonged milling and contained fcc Al crystallites. The glass forming ability was found to increase with decreasing Al and increasing La content, which can be ascribed to the enhanced atomic size mismatch of the constituents on La addition. Amorphous Al₈₂La₁₀Ni₄Fe₄ powder undergoes two-stage crystallization with onset temperatures at 640 and 700 K and glass transition at 566 K. Differences to DSC traces of previously studied melt-spun samples are believed to be mainly due to carbon impurity incorporation and compositional changes during milling. Taking into account the DSC data, consolidation of amorphous Al₈₂La₁₀Ni₄Fe₄ powder was attempted by means of spark-plasma sintering at a temperature of 613 K and applied pressures of 400 and 600 MPa. Compacts produced under these conditions were found to have relative densities of 80 and 96 %, respectively.