Uniaxial tensile deformation of uranium 6 wt pct niobium: A neutron diffraction study of deformation twinning

The deformation of polycrystalline uranium 6 wt pet niobium (U6Nb) was studied in situ during uniaxial tensile loading by time-of-flight neutron diffraction. Diffraction patterns were recorded at incremental stresses to a maximum of 450 MPa (similar to4 pct macroscopic strain). Consistent with reorientation of the martensite variants by twinning, significant changes in the diffraction peak intensities, which were proportional to the plastic contribution of the macroscopic strain, were observed. Both the lattice parameters (a. b, c, and gamma) and interplanar spacings (d(hki)) were determined as a function of applied stress. Phenomenologically, the highly anisotropic stress response of the lattice parameters as well as the individual lattice spacings can be related to deformation twinning. Preliminary transmission electron microscopy (TEM) studies identified the ((1) over bar 30) and ((1) over bar 72) as active deformation twinning systems of U6Nb in tension.