Irradiation-induced disordering and amorphization of Al3Ti-based intermetallic compounds

An in situ ion-irradiation study, simultaneously examined using transmission electron microscopy, was performed to investigate irradiation-induced disordering and amorphization of Al3Ti-based intermetallic compounds. Thin foil samples of two crystalline structures: D0(22)-structured Al3Ti and L1(2)-structured (Al,Cr)(3)Ti were irradiated using 1.0 MeV Kr ions at a temperature range from 40 K to 573 K to doses up to 4.06 x 10(15) ions/cm(2). The results showed that both the compounds underwent an order-disorder transformation under irradiation, where both Al3Ti and (Al,Cr)(3)Ti ordered structures were fully transformed to the disordered face-centered cubic (FCC) structure except at the highest irradiation temperature of 573 K. A slightly higher irradiation dose was required for order-disorder transformation in case of Al3Ti as compared to (Al,Cr)(3)Ti at a given temperature. However, their amorphization resistances were different: while the disordered FCC (Al,Cr)(3)Ti amorphized at the irradiation dose of 6.25 x 10(14) ions/cm(2) (0.92 dpa) at 40 K and 100 K, the Al3Ti compound with the same disordered FCC structure maintained crystallinity up to 4.06 x 10(15) ions/cm(2) (5.62 dpa) at 40 K. The critical temperature for amorphization of (Al,Cr)(3)Ti under Kr ion irradiation is likely between 100 K and room temperature and the critical temperature for disordering between room temperature and 573 K. (C) 2015 Elsevier B.V. All rights reserved.