Jl. Reeves et al., Effects of overpressure processing on porosity in Ag-sheathed Bi-2212 multifilamentary tapes with various geometries, IEEE APPL S, 9(2), 1999, pp. 1836-1839
In long lengths of Bi-2212 tapes and wires, gases such as CO2 rind H2O can
cause bubbling of the Ag-sheath and porosity in the superconducting core Ap
plying a pre-processing step, which consists of vacuum annealing and anneal
ing at 835 degrees C in 100% O-2 (VA+835), eliminates H2O and reduces CO2 t
hat evolves during heating. To also counteract porosity, an overpressure he
at treatment was utilized. Air was compressed to 5 atm total pressure (P-to
tal) while keeping pO(2) fixed at I atm. Thickness variations were measured
for a number of variables: with and without VA+835; P-total = 1 or 5 atm;
and sample geometry such as round wires and rectangular tapes with differen
t silver wall thickness. Light micrographs and SEM images show thin-walled
monocore and multifilamentary tapes bubble unless they are pre-processed. T
he size and shape of pores in thick and thin multifilaments changes with ov
erpressure processing. Microstructures with smaller and more uniformly dist
ributed pores correlate with higher critical current values.