In the present study we investigate the phase formation and the thermal stability of Cu(50)Zr(50 - x)Ti(x) (0 <= x <= 10) and (Cu(0.5)Zr(0.5))(100 - x)Al(x) glass-forming alloys. Parameters indicating the glass-forming ability (GFA) are calculated from isochronal and isothermal calorimetric experiments. A high Ti content in the Cu-Zr-Ti alloys causes the precipitation of a metastable ternary Laves phase (C15), which does not form in Cu-Zr-Al. Accompanied with it is a significant drop in the activation energy of crystallization. Also the supercooled liquid region (Delta T(x) = T(x) - T(g)), the reduced glass transition temperature (T(rg) = T(g)/T(liq)), and the gamma parameter (gamma = T(x)/(T(g) + T(liq))) (T(x): crystallization temperature, T(g): glass transition temperature and T(liq): liquidus temperature) are sensitive to the change in the crystallization sequence. The fragility values calculated are believed to overestimate the GFA of the investigated alloys. Careful selection of the alloy composition enables the targeted precipitation of different crystalline phases.

• 出版日期2009-6