Processing properties of nano- and submicro-crystalline Ti–6Al–4V titanium alloy

“…As is shown in [65], a grain size reduction from 6-4 m to 1 m in Ti-6Al-4V alloy sheets makes it possible to reduce the SPF/DB temperature from the conventional range of 900-920 °C to 775 °C and perform forming operations almost at the same stresses and ductility. The fabrication of sheets with UFG structure with a grain size of 0.1-0.4 mm allows for lowering the SPF/DB temperature to 600°C [66]. Superplastic forming is also successfully used for products made from alloys based on titanium aluminides and ceramics [11,67].…”

Studies on the Superplasticity Effect in UFA: History and Development (In Memory of Prof. O.A. Kaibyshev)

“…As is shown in [65], a grain size reduction from 6-4 m to 1 m in Ti-6Al-4V alloy sheets makes it possible to reduce the SPF/DB temperature from the conventional range of 900-920 °C to 775 °C and perform forming operations almost at the same stresses and ductility. The fabrication of sheets with UFG structure with a grain size of 0.1-0.4 mm allows for lowering the SPF/DB temperature to 600°C [66]. Superplastic forming is also successfully used for products made from alloys based on titanium aluminides and ceramics [11,67].…”

Studies on the Superplasticity Effect in UFA: History and Development (In Memory of Prof. O.A. Kaibyshev)

“…Modification of titanium is carried out in the following main directions: i) change of microstructure (dispersion grain size, texture formation etc.) [1][2];…”

Structure and phase composition of Nb/Ti system subjected to compression plasma flow impact

“…Processing of nano-grained materials was already studied in some papers [7,8]. Change of the microstructure of UFG-Ti due to annealing was studied by [2].…”

Surface grain coarsening and surface softening during machining of ultra-fine grained titanium