Bulk metallic glasses are prepared in Pd4o.sNi4o.sSixP19-x (x = 0-14 at.%) alloys by a combination of flux treatment and water quenching technique. It is found that the thermal stability of the Pd4o.sNi4o.sSixP19=x ...Bulk metallic glasses are prepared in Pd4o.sNi4o.sSixP19-x (x = 0-14 at.%) alloys by a combination of flux treatment and water quenching technique. It is found that the thermal stability of the Pd4o.sNi4o.sSixP19=x glassy alloys depends on the addition of Si content. Among the Pd4o.sNi4o.sSixP19=x glassy alloys studied, the Pd4o.sNi4o.sSisPls bulk metallic glass exhibits the largest supercooled liquid region (△T = 119 K) and the highest activation energy of crystallization (283.3k J/tool), showing enhanced glass formation ability and extraordinary glassy thermal stability.展开更多
基金Supported by the National Natural Science Foundation of China under Grant Nos 50671050 and 50431030, and the National Center for Nanoscience and Technology of China.
文摘Bulk metallic glasses are prepared in Pd4o.sNi4o.sSixP19-x (x = 0-14 at.%) alloys by a combination of flux treatment and water quenching technique. It is found that the thermal stability of the Pd4o.sNi4o.sSixP19=x glassy alloys depends on the addition of Si content. Among the Pd4o.sNi4o.sSixP19=x glassy alloys studied, the Pd4o.sNi4o.sSisPls bulk metallic glass exhibits the largest supercooled liquid region (△T = 119 K) and the highest activation energy of crystallization (283.3k J/tool), showing enhanced glass formation ability and extraordinary glassy thermal stability.
