Metastable phases induced by ion irradiation in the equilibrium immiscibleFe-Cu system

Anomalous structural evolution was induced by room-temperature 200 keV xeno n ion irradiation and it results in the formation of various new metastable phases in the equilibrium immiscible Fe-Cu system. First, nanosized quasic rystals were formed in an amorphous matrix through a two-step transition of crystal to amorphous to quasicrystal in Fe70Cu30 multilayered films. The r eal compositions of the amorphous matrix and quasicrystals were determined to be close to Fe70Cu30 and Fe50Cu50, respectively. Moreover, the same icos ahedral phase was also obtained in another similarly designed Fe50Cu50 mult ilayered sample upon 850 degrees C thermal annealing, confirming the existe nce of such a metastable state. Second, amorphous alloys were formed in a c omposition range of 30-50 at. % of Cu. Third, a Cu-based face-centered-cubi c (fcc) solid solution was formed at an alloy composition of about Fe30Cu70 and, interestingly, another fcc structured metastable crystalline phase wa s obtained at a composition very close to that of Fe50Cu50. A Gibbs free en ergy diagram of the Fe-Cu system was calculated, with special consideration of excess interfacial free energy stored in the multilayered films, within the framework of Miedema's model and it gives a reasonable thermodynamic e xplanation to the metastable phase formation observed. The amorphous-to-qua sicrystal transition is also discussed in terms of the similarity in the at omic configuration between the icosahedral and amorphous short-range orders . Furthermore, molecular dynamics study showed that Fe and Cu could be mixe d on an atomic scale in the metastable phases observed. (C) 2000 American I nstitute of Physics. [S0021-8979(00)01610-8].