Synthesis of amorphous niobium-nickel alloys by vapor quenching

Amorphous Fe, \_,Ti, alloys with x = 0.2-0.75 have been investigated by differential scanning calorimetry, differential thermal analysis, X-ray diffraction and Mdssbauer effect measurements. The amorphous phase is thermally the most stable for x = 0.3-0.4, where we have the Laves phase, TiFe, (C14),

X-ray diffraction and Mbssbauer effect measurements were made for sputter-deposited Fe-Ag alloys after isochronal and isothermal annealings. Below 570 K, the metastable b.c.c. and f.c.c. single phases undergo a structural relaxation. Above 570K, these metastable phases decompose by ejecting supersat

Room temperature ion implantation of 40 keV phosphorus ions into crystalline (f.c.c.) nickel resulted in the formation of h.c.p, nickel at low doses followed by amorphization, and at high doses the formation of b.c.t. Ni3P. These observations can be understood in terms of a model involving surface s

We have used thermodynamically calculated phase diagrams of Cu-Zr-Ti to identify two low-melting Cu-rich alloys denoted by A and B as bulk amorphous alloys where none were thought to exist. These alloys show greater stability of the glassy phase than previously discovered alloys in the same system,