Migration in foils was measured at 0 to 100C by using an electrochemical time-lag method (table 83). A modified strain model indicated that the tetrahedral sites in body-centered cubic lattices had to be assumed to be stable positions for dissolved H. Elementary jumps, from one tetrahedral site to the next, passed directly through a tetrahedral plane. This model described qualitatively the experimental results, with respect to the order of the activation energies for H diffusion in these metals.
N.Boes, H.Züchner: Zeitschrift für Naturforschung A, 1976, 31[7], 760-8
Table 79
Parameters for the Grain Boundary Diffusion
of Cr in [1¯01]/[112] Nb Bicrystals
Tilt Angle () | Q (kJ/mol) | sD (m3/s) |
2 | 182.8 | 5.88 x 10-16 |
5 | 179.3 | 5.33 x 10-16 |
8 | 179.7 | 5.76 x 10-16 |
10 | 179.1 | 6.56 x 10-16 |
13 | 182.8 | 9.87 x 10-16 |
17 | 183.3 | 1.12 x 10-15 |
21 | 226.3 | 6.63 x 10-14 |