It was pointed out that, during diffusion-bonding, an Fe-Si solid solution formed via the interaction of Fe with Si3N or SiC. At temperatures above 1373K, the solid solution extended to beyond 25at%Si on the Fe-rich side. Previous studies of interdiffusion had revealed that interdiffusion depended strongly upon composition; thus reflecting the complex structure (ordering) of the solid solution. The interdiffusion coefficient (figures 28 and 29) exhibited a distinct maximum at the stoichiometric composition, Fe3Si, which corresponded to the highest degree of order in the D03 structure. This was a surprising observation which could not be explained by the presence of thermal vacancies alone.
E.Heikinheimo, A.A.Kodentsov, F.J.J.Van Loo: Scripta Materialia, 1998, 38[8], 1229-35
Table 196
Diffusion of O in Fe-Si Alloys
Si (wt%) | Do (m2/s) | E (kJ/mol) |
0.07 | 2.36 x 107 | 87.6 |
0.12 | 2.46 x 107 | 86.2 |
0.18 | 8.97 x 107 | 97.9 |
0.40 | 4.37 x 107 | 89.0 |
Figure 28
Diffusivity of Si in Fe-Si Alloys at 1373K