Processing, microstructure and transport currents of (100)/(100) and (110)/(110) domain boundaries in multi-seeded YBaCuO fabrics

Multi-domain YBaCuO (123) superconducting fabrics with controlled domain orientations have been prepared from YO precursor cloths by multiple seeding during an infiltration and growth process. Long-length samples containing up to four domains with controlled orientations yielding the (110)/(110) and (100)/(100)junctions respectively have been produced by placing the seed crystals accordingly. The normal state resistivity and the transport currents along the domain boundaries are discussed and correlated with their microstructure. The (110)/(110) boundaries are observed to exhibit superior transport currents over the (100)/(100) boundaries due to the formation of relatively clean boundaries. The presence of boundary junctions is found to be effective in increasing the normal state resistivity of the samples. The coupling of domains rather than their crystallographic alignment is observed to be the dominant factor in deciding the final J of the multi-seeded samples.