Direct growth of REBa2Cu3O7-delta (RE=Yb, Er, Y, Dy, Eu, Sm, Nd and Pr) from undercooled melt using aero-acoustic levitator

The authors have previously reported that the NdBa2CU3O7-delta (Nd123) phas e solidifies directly from undercooled melt using an aero-acoustic levitato r combined with a CO2 laser in dry air flow. The reason why the YBa2CU3O7-d elta (Y123) phase never undergoes primary solidification, however, remains unknown. There are systematic differences in the phase diagrams between sto ichiometric Y123 and nonstoichiometric Nd123 with respect to the gradient o f the liquidus line and the metastable high-temperature phase. In the prese nt study, the containerless solidification of RE123 (RE=Yb, Er, Y, Dy, Eu, Sin, Nd and Pr) was carried out to compare systematically the direct growth of stoichiometric RE123 (sRE123) with that of nonstoichiometric RE123 (nRE 123). In sRE123 specimens, the metastable high-temperature phase, the RE4Ba 3O9 (RE430) phase, solidified primarily from undercooled melt, while the nR E123 phase solidified primarily in nRE123 specimens. Moreover, in the Cu-en riched RE3Ba6Cu11Ox composition, the sRE123 phase solidified directly from the undercooled melt by suppressing the primary solidification of the RE430 phase. The direct growth of RE123, especially Y123, is discussed using the metastable phase diagram proposed on the basis of the experimental results . (C) 2001 Acta Materialia Inc. Published by Elsevier Science Ltd. All righ ts reserved.