Development of Low Anisotropic Commercially Pure Titanium Foils by Asymmetric Rolling and Annealing

This work studies the evolution of microstructure, texture, and anisotropy of pure titanium foils by symmetric rolling (SR) and asymmetric rolling (ASR) and subsequent annealing. The as-received material shows equiaxed alpha grains and strong transverse texture (S-T texture), which leads to severe anisotropy. The index of plane anisotropy (IPA) of yield stress (YS) and ultimate tensile stress (UTS) of the as-received material is 15.2% and 7.5%, respectively. With the increase of deformation, the S-T texture is mainly transformed into a mixed texture of transverse texture (T texture) and rolling direction texture (R texture), which balances the start-up of the slip system when loading in the rolling direction (RD) and transverse direction (TD), so that the mechanical stress along RD and TD are close to each other and the anisotropy is improved. Especially for the samples prepared by ASR and annealing, the appearance of more R texture or basal texture (B texture) at the same deformation makes them show lower anisotropy. Therefore, after the same annealing treatment, the IPA of titanium foil with a thickness of 0.2 mm prepared by ASR is the smallest, which is 6.6% and 0.03%, respectively, while the IPA prepared by SR is 10.5% and 2.5%. The anisotropy of commercially pure titanium foil by symmetric rolling, asymmetric rolling (ASR) and subsequent annealing is studied. With the increase of deformation, the anisotropy decreased gradually. The reduction of anisotropy by ASR was more obvious. Meanwhile, ASR has a faster thinning ability, so it is an effective method for titanium foil processing.image (c) 2024 WILEY-VCH GmbH