The microstructures of PrBa2Cu3Oy during melt processing have been studied
for samples quenched at different stages of the thermal cycle. The absence
of the Pr2BaCuO5 phase in the Pr-Ba-Cu-O phase diagram, analogous to the Y2
BaCuO5 (211) phase in the Y-Ba-Cu-O system, makes it interesting to study t
he microstructure of PrBa2Cu3Oy (Pr-123) during melt processing. The nature
and morphology of the properitectic particles, the nucleation of Pr-123, a
nd the microstructures resulting from melt processing are investigated and
discussed as compared with those in YBa2Cu3Oy. At the properitectic stage t
he morphology of PrBaO3 (Pr-110) particles is angular. Pr-123 is found to n
ucleate on all Pr-110 particles with a needle-like morphology, whereas in o
ther 123 systems no preferred morphology for the 123 during nucleation is o
bserved. The melt textured microstructure of Pr-123 revealed similar featur
es like domain formation with the trapped properitectic phase. The only dif
ference is the absence of platelet gaps within domains as observed in other
123 systems. All these observations suggest that as compared to other 123
systems the microstructure of the Pr-Ba-Cu-O system behaves differently due
to the absence of the analogous 211 phase.