Micro-chemical inhomogeneity in eutectic Pb-Bi alloy quenched from melt

The liquid lead-bismuth eutectic (LBE) alloy is of great interest for applications in advanced nuclear systems, in particular it is considered to be a good candidate as a coolant and neutron spallation source material for MYRRHA, an accelerator driven system. Investigations based on mechanical spectroscopy experiments and high temperature X-ray diffraction (HT-XRD) evidenced that the structure of the liquid alloy is not stable but undergoes relevant changes as the temperature increases. To understand whether such transformations, occurring in the liquid state involve elemental clustering, the alloy has been water-quenched from the liquid state at three different temperatures. After quenching, the samples have been investigated by standard XPS and scanning photoemission microscopy (SPEM) at the ELETTRA synchrotron. The SPEM results showed that the distribution of two metals is characterized by: 1) Pb enriched clusters; 2) Bi enriched clusters and 3) matrix in near eutectic composition. The statistics of clusters size was evaluated from the linescans of chemical Pb/Bi images. The average size of clusters is noticeably reduced by increasing quenching temperature: it is in the range of 1 ÷ 3 µm at 313 °C and passes to 0.5 ÷ 0.9 µm at 518 °C. Therefore, SPEM results evidenced a structural and micro-chemical re-arrangement of the atoms in the melt consisting in the evolution of cluster size and composition.