| Abstract: | ![]()
The corrosion of steels in liquid metal lead(Pb) and bismuth(Bi) is a critical challenge in the development of accelerator driven systems(ADS). Using a first-principles method with a slab model, we theoretically investigate the interaction between the Pb(Bi) atom and the iron(Fe)(100) surface to assess the fundamental corrosion properties. Our investigation demonstrates that both Pb and Bi atoms favorably adsorb on the(100) surface. Such an adsorption decreases the energy required for the dissociation of an Fe atom from the surface, enhancing the dissolution tendency significantly. The segregation of six common alloying elements(Cr, Al, Mn, Ni, Nb, and Si) to the surface and their impacts on the corrosion properties are also considered. The present results reveal that Si seems to have a relatively good performance to stabilize the surface and alleviate the dissolving trend caused by Pb and Bi. |
