The hot deformation behavior of Ti22A125 Nb was investigated by hot compression test.The flow stressstrain curves can be divided into two types:conventional dynamic recrystallization(DRX) and discontinuous DRX.The different softening mechanism and micro structure observation of conventional DRX and discontinuous DRX were analyzed.The processing map(PM) of Ti22A125 Nb was built to predict the safe deformation region.The optimal low strain rate domain(DOM I) with high power dissipation efficiency indicates the complete DRX.Additionally,in the high strain rate and low-temperature domain(DOM Ⅲ),the power dissipation efficiency is low and some adiabatic shear bands and glide bands are observed,which are unsafe and should be avoided.Finally,the DRX map was established.In DOM I,it reveals low dislocation density and high DRX content,which is in agreement with PM.
The influence of hot working on the microstructures of TC11/Ti2 Al Nb dual-alloy joints welded by electron beam welding(EBW) process was investigated. The tensile tests were performed at room temperature for specimens before and after thermal exposure. The results show that the fusion zone of TC11/Ti2 Al Nb dual-alloy joint welded by EBW is mainly composed of β phase. After deformation and heat treatment, the grain boundaries of the as-cast alloy are broken and the fusion zone mainly consists of β, α2and α phases. The fusion zone performs poor property in the tensile test. Specimens before and after thermal exposure all fail in this area under different deformation conditions. The ultimate tensile strength of specimens after heat treatment is up to 1190 MPa at room temperature. The joints by water quenching after deformation have better plasticity with an elongation up to 4.4%. After thermal exposure at 500 °C for 100 h, the tensile strength of the specimen slightly rises while the ductility changes a little. SEM observation shows that the fracture mechanism is predominantly transgranular under different deformation conditions.
The high-temperature flow behavior of TCll/Ti-22Al-25 Nb electron beam(EB) weldments was investigated by the isothermal compression tests at the temperature of 900-1060℃ and the strain rate of 0.001-10 s-(-1).Based on the experimental data,the constitutive equation that describes the flow stress as a function of strain rate and deformation temperature is obtained.The apparent activation energy of deformation is calculated,which decreases with increasing the strain and the value is 334 kJ/mol at strain of 0.90.The efficiency of power dissipation η changes obviously with the variation of deformation conditions.Under the strain rates of 0.01,0.1 and 1 s-(-1),the value of η increases with increasing the true strain for different deformation temperatures.While the value of η decreases with increasing the strain under the strain rates of 0.001 and 10 s-(-1).The optimum processing condition is(t(opi)=1060℃,ε(opi)=0.1 s-(-1)) with the peak efficiency of 0.51.Under this deformation,dynamic recrystallization(DRX) is observed obviously in the microstructure of welding zone.Under the condition of 1060℃ and 0.001 s-(-1),the deformation mechanism is dominated by dynamic recovery(DRV) and the value of η decreases sharply(η=0.02).The flow instability is predicted to occur since the instability parameter ξ(ε)becomes negative.The hot working process can be carried out safely in the domain with the strain rate of 0.001-0.6 s-(-1) and the temperature of 900-1060℃.
