Mobility Database
PanZn2024_MB is an atomic mobility database for zinc alloys, which is compatible with the PanZn2024_TH thermodynamic database and suitable for the simulation of diffusion-controlled phenomena using the PanDiffusion module, PanEvolution module, and/or PanSolidification module.
Phases
The atomic mobility within the Liquid, Bcc, Fcc, and Hcp solution phases are assessed in this database.
Self-diffusivity of Pure Elements
The color represents the following meaning:
| : | Validated | |
| : | Estimated | |
| : | No data |
|
Assessed Systems
In addition to the assessed self-diffusivities shown above, the impurity diffusion data for all included elements in the current PanZn2024_MB database are also assessed. In the following, the assessed chemical-diffusivity within the binary and ternary systems for the Bcc , Fcc and Hcp phases are listed, respectively.
Fcc Phase
| Al-Cu | Al-Fe | Al-Mg | Al-Ni | Al-Si | Al-Zn | Cu-Fe | Cu-Mg | Cu-Mn | Cu-Ni |
| Cu-Zn | Fe-Mn | Fe-Ni | Fe-Zn | Ni-Zn |
| Al-Cu-Mg | Al-Mg-Zn | Cu-Fe-Mn | Cu-Fe-Ni | Cu-Ni-Mn | Cu-Ni-Zn |
Bcc phase
| Al-Fe | Al-Ti | Cu-Ti | Ni-Ti |
Hcp phase
| Al-Mg | Al-Zn | Cd-Zn | Mg-Sn | Mg-Zn |
| Al-Mg-Sn | Al-Mg-Zn |
Database Validation
The simulated concentration profiles of a series of zinc alloys are shown below to validate the current PanZn2024_MB database.
Figure 1 shows the calculated self-diffusion of Zn and inter-diffusion coefficients of Zn within the Hcp Zn-X (X=Cu, Cd, Sn) binary systems using the current PanZn_MB database. The calculated results are in good agreement with the experimental data.
Figure 1: left: self-diffusivity of pure Zn; right: inter-diffusion coefficients of Zn-X (X=Cu, Cd, Sn) systems in Hcp phase.
Figure 2 shows the simulated concentration profiles of Cu-Zn binary system aged at 380 °C for 25h.
