Rolled single crystals of the alloy Ti–48%Ni–2%Fe were
studied by methods of X-ray diffractometry using a PSD-technique.
Single crystals, consisting of the phase B2, were rolled in 11
initial orientations at 350°C with deformation degrees up to
~80%. Texture development in single crystals under rolling was
analyzed to determine the acting mechanisms of plastic
deformation. Three stable orientations of single crystals were
found: {011}〈011〉 ,{111}〈011〉 and {111}〈112〉. It was shown on the basis of texture data, that Ti–Ni
single crystals deform by means of combined action of slip in the
systems {011}〈001〉 and twinning. For the first time, along with twinning
in the known systems {114}〈221〉 , twinning in the systems {118}〈441〉
was revealed. A
number of concrete cases was considered to refine the
contributions of slip and twinning into reorientation of single
crystals depending on their initial orientations as well as to
ascertain the interrelation of different mechanisms.