Reduced interaction layer growth of U–Mo dispersion in Al–Si

Abstract

Development of high U-density U–Mo fuel particle dispersion in Al is needed to convert high power research and test reactors from HEU to LEU. Interaction layer growth between U–Mo and Al poses a challenge to this goal. The KOMO-4 test was designed at KAERI and irradiated in the HANARO reactor to ∼50% burnup of initial 19.75% U-235 enrichment at ∼200°C. The main objective of the test was to examine the effect of the Si content in the matrix up to 8wt.%. U–Mo/Al–Si dispersion samples with a Si addition in the range 0–8wt.% in the matrix were tested. A sample with pre-irradiation Si-containing interaction layers (ILs) was also tested. As the Si content in the matrix increases, the IL growth was progressively reduced. Contrary to the thermodynamics prediction and out-of-pile observations, however, Si accumulation in the ILs occurred near the IL–matrix interface with only a slight increase in concentration. The effect of the pre-formed ILs was insignificant in reducing IL growth.