Shock-induced displacive transformations in tantalum and tantalum-tungsten alloys

Abstract

A recent investigation on the deformation substructure of shocked tantalum by transmission electron microscopy (TEM) has for the first-time revealed that a displacive omega transformation can also take place in tantalum (a group V transition metal) under a high shock peak pressure (45 GPa). Plate- or lath-like {omega} phase ({omega}{prime} hereafter) has been observed within shocked tantalum, which is considered to be unusual since tantalum has a bcc structure and exhibits no equilibrium phase transformation up to its melting temperature at ambient pressure. The occurrence of displacive omega transformation within shocked tantalum is of great interest because it provides not only an effective strengthening mechanism for tantalum and tantalum alloys but also an opportunity to study and understand the mechanisms of displacive {beta} {yields} {omega}{prime} transition induced by high strain-rate deformation. Results from the investigation of displacive omega transformation in tantalum and tantalum-tungsten alloy are reported and discussed here.