Copper Content Dependence of the Lattice Parameters of Ti(NiCu)₂

Abstract

The ternary Ti–Ni–Cu system forms a tetragonal Ti(NiCu)₂ phase with C11_b-type structure, in a wide range of copper content. The copper content dependence of the lattice parameters of the Ti(Ni_1−YCu_Y)₂ (0.22≤Y≤0.75) alloys and those of the Ti(NiCu)₂ precipitate formed in the Ti₄₉(Ni_1−XCu_X)₅₁ (0.06≤X≤0.4) alloys, were determined by powder X-ray diffraction. The parameters a and c both exhibit a minimum, but the ratio c⁄a decreases almost linearly as the copper content increases. The coherency between the matrix and the precipitate becomes worse as the copper content increases. The relation between the copper contents X and Y will be approximated as Y=1.24X+0.09. While the X-ray diffraction patterns can be indexed by the C11_b-type structure, diffuse 1/2{110} reflections appear in the electron diffraction pattern. The Vickers microhardness of Ti(NiCu)₂ decreases as the copper content increases.