Study on interfaces and microstructural defects in Ag-clad (Bi,Pb)2Sr2Ca2Cu3O10+ytapes

Abstract

The interfaces and microstructural defects in the broad face and longitudinal cross-sectional specimens of Ag-sheathed (Bi,Pb)₂Sr₂Ca₂Cu₃O_10+y (2223) tapes have been studied by TEM. Most Of the twist boundaries in the colonies have a small rotation angle, accommodated by a screw dislocation network. The twist boundaries are normally atomically flat without a second phase. Most of the colony boundaries are of mixed type with a misorientation angle up to 30 degrees . A thin amorphous layer is commonly formed at colony boundaries with adjacent basal planes on both sides of the boundary. Most of the c-direction colony boundaries are mixed-type ones, and second phases were sometimes observed at these boundaries. Tilt boundaries, consisting of a wall of edge dislocations, are clean and the lattices from both sides of the boundary are well matched. At the triple colony junction, second phases were often found. Around a large isolated particle of a second phase, small colonies were found to be randomly orientated and seriously distorted. The (001) edge dislocations, and the bend and interruption of the (001) planes were often observed. A systematic study on the correlation between J_c, and 2212 fraction in numerous tapes shows that tapes with higher J_c always contain a certain fraction of 2212 phase, while the tapes with a very low fraction of 2212 did not show high J_c. These results seem to indicate that the predominant weak links in the tape are not 2212 layers at twist boundaries in the low 2212 fraction regime. The predominant weak links in tapes are colony boundaries and J_c is assumed to be controlled by colony boundaries in low fields.