The structure of the R phase of the alloy Ti50Ni48.7Co1.3 was determined by
the crystallogeometric analysis of martensitic transformations in titanium
nickelide. This analysis is based on the concept of cooperative thermal vi
brations of the (110)-like planes in the b.c.c. and B2 structures and their
freezing (transformation to static displacements) at the point of the phas
e transition. The space group of the R phase is trigonal P31m with a hexago
nal Bravais lattice. The validity of the R-phase structure determination is
confirmed by an X-ray diffraction pattern that was obtained at room temper
ature using Cu K alpha radiation. The Rietveld procedure was used to compar
e the calculated and experimental X-ray diffraction patterns. The proposed
structural model of the R phase agrees satisfactorily with the experimental
data.