Accommodation of Tin in Tetragonal ZrO2

Atomic scale computer simulations using density functional theory were used to investigate the behaviour of tin in the tetragonal phase oxide layer on Zr-based alloys. The $Sn_{Zr}^{\times}$ site defect was shown to be dominant across most oxygen partial pressures, with $Sn_{Zr}^{"}$ charge compensated by fully charged oxygen vacancies occurring at partial pressures below $10^{-31}$ atm. Insertion of additional positive charge into the system was shown to significantly increase the critical partial pressure at which $Sn_{Zr}^{"}$ is stable. Recently developed low-Sn nuclear fuel cladding alloys have demonstrated an improved corrosion resistance and a delayed transition compared to Sn-containing alloys, such as Zircaloy-4. The interaction between the positive charge and the tin defect is discussed in the context of alloying additions, such as niobium and their influence on corrosion of cladding alloys.