Title of article :
Flow behavior and globularization kinetics during hot working of Ti–6Al–4V with a colony alpha microstructure
Author/Authors :
Semiatin، نويسنده , , S.L. and Seetharaman، نويسنده , , V and Weiss، نويسنده , , I، نويسنده ,
Abstract :
The effect of process variables on flow response and microstructure evolution during hot working of Ti–6Al–4V with a colony alpha preform microstructure was established using isothermal hot compression tests. Testing was conducted on material with prior-beta grain sizes of 100 μm or 400 μm at strain rates of 0.001–10 s−1, test temperatures between 815 and 955°C, and height reductions of 40–80%. All of the flow curves exhibited a peak stress followed by moderate flow softening. The absence of a grain/colony size dependence of flow behavior, coupled with relatively low values of the strain rate sensitivity of the flow stress (∼0.05–0.30), led to the conclusion that deformation was controlled by dislocation glide/climb processes. Flow softening was interpreted in terms of deformation heating and substructure/texture evolution. The dependence on strain rate and temperature of the kinetics of dynamic globularization of the colony microstructure was complex and appeared to be of second-order importance compared to the effects of strain per se, thus suggesting the dominance of dislocation-type processes for the control of globularization as well.
Keywords :
Dislocation glide/climb processes , Ti–6Al–4V , Colony alpha preform microstructure
Journal title :
Astroparticle Physics