Mechanism of Isotropic Behavior in Titanium Alloy Plates Formed by Axial Closed Die Rolling

The torsional behavior during the deformation process of the axial closed die rolling the axial closed rolling (ACDR) forming is studied in this paper using a numerical simulation technique on TC11 titanium alloy. The axial and radial pinch angles, as well as the degree of specimen torsion, increased with the amount of deformation. The orientation distribution function (ODF) maps of the α-phase and β-phase were obtained by Electron Back Scatter Diffraction (EBSD) treatment of the TC11 titanium alloy. It can be noticed that there were different types of texture with different strengths in the ACDR samples, and in the xz and yz planes, textures in the direction of the column were predominantly of {0001} <2 (Formula presented.) 0> and {01 (Formula presented.) 0} <2 (Formula presented.) 0>; the weaker the texture was, the closer to the edge of the sample. In the xy plane, the texture structure was mainly distributed along the cone direction, and the textures were { (Formula presented.) 2 (Formula presented.) 0} <10 (Formula presented.) 0> and {01 (Formula presented.) 0} <2 (Formula presented.) 0>. However, the closer to the edge position of the specimen, the higher the intensity of the texture, and the texture was {1 (Formula presented.) 1 (Formula presented.) } <1 (Formula presented.) 16>. The β-phase is mainly distributed as {001} <100>, {110} <1 (Formula presented.) 0>, and {110} <001> textures within the specimen, and the texture strength is about 8.5 times. However, owing to the small proportion of the β-phase content in the specimen, the distribution pattern of its texture has a weak impact on the texture distribution of the overall specimen. A high degree of isotropy in the radial and tangential tensile properties, with a strength isotropy of over 99 percent and a plasticity isotropy of over 95 percent, resulted from the distribution of texture types with varying strengths and orientations within the ACDR specimens, which weakened the TC11 discs’ overall orientation.