| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 1618591 | Journal of Alloys and Compounds | 2011 | 5 Pages |
Effects of nitrogen doping on the glass formation and primary precipitate phase in a ternary Cu–Zr–Al alloy were investigated. An optimized doping level of nitrogen (∼1000 appm) can improve the glass-forming ability of Cu49Zr44Al7 alloy. The type of primary phases from ZrCu (B2) to an unknown Zr- and Al-rich crystalline phase with chemical atomic composition of around Cu38Zr49Al13 in the bulk glassy matrix is controllable by the micro-adjustment of N concentration, which can be utilized as an effective way to design BMG-based composites with selective second phase particles.
Research highlights► Optimal nitrogen doping enhances the glass-forming ability of Cu49Zr44Al7 alloy. ► Trace N controls the type of primary precipitate phase during solidification. ► The study provides new candidates for the alloying of BMGs in improving GFA. ► The study provides effective way in designing BMG composites with selective phase.
