Diffusion coefficient measurement and atomic mobility assessment for bcc Ti-V-Fe ternary alloys

Diffusion behaviors in bcc Ti-V-Fe ternary alloys have been investigated at 1273 K and 1473 K by the diffusion couple technique. The composition-distance profiles have been retrieved from Electron Probe MicroAnalysis (EPMA) and analytically represented by the ERror Function EXpansion (ERFEX), and then the ternary inter-diffusion and impurity diffusion coefficients have been extracted by Whittle-Green and generalized Hall methods, respectively. The extracted inter-diffusion coefficients of D TiVV and D TiFeFe range from 0.89 x 10-13 m2/s to 1.86 x 10-13 m2/s and from 1.33 x 10-12 m2/s to 1.76 x 10-12 m2/s, respectively, at 1273K, and from 6.41 x 10-13 m2/s to 15.98 x 10-13 m2/s and from 82.46 x 10-13 m2/s to 147.08 x 10-13 m2/s at 1473K. D TiVV exhibits the similar compositional variation at both temperatures, which decrease with decreasing Fe and minimize at the Ti-V binary. D Ti FeFe has the maximum value at Ti-corner and eventually decreases with the increasing V and Fe at 1273K, but has the maximum value at Fe-rich Ti-Fe binary and decreases with the increasing V. The atomic mobility parameters of Ti-V, Ti-Fe and V-Fe binary systems have been revised to associate with the lasted ternary interaction parameters in thermodynamics. The ternary atomic mobility parameters for diffusion have been assessed for the first time by reproducing the extracted diffusion coefficients. The composition-distance profiles and the diffusion paths have been successfully reproduced by using the optimized atomic mobility pa-rameters showing a consistency with the experimental data and indicating the accuracy of this work.