Abstract
The effect of particle size distribution on the nature of the precursor powder and the subsequent phase formation and critical current density of silver sheathed Bi-2223 tapes has been studied. Three precursor powders with different particle size distributions were obtained by grinding the calcined powder for different times. The effects of precursor powder particle size were identified by a combination of XRD, SEM and EDX analysis. The results indicate that the phase formation, microstructure evolution and critical current density are sensitive to the precursor particle size distribution. It has been shown that a small particle size promotes the formation of the Bi-2223 phase, and that coarse powder leads to Ca 2CuO 3 and Ca 2PbO 4 remaining in the final tape. It has been found that too fine a powder may cause the formation of large alkaline–earth cuprate grains [(Sr,Ca) 14Cu 14O 41 and (Ca,Sr) 2CuO 3]. The critical current density tends to increase when the amount and size of non-superconducting phase decrease in the final tapes
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