Abstract

The effect of Ag2CO3 addition (0–25wt%) on the Bi1.6Pb0.4Sr2Ca2Cu3Oδ (Bi-2223) precursor powder has been investigated in terms of X-ray diffraction, scanning electron microscopy, dc electrical resistivity, critical temperature, ac magnetic susceptibility and critical current density. The samples were prepared by the conventional solid-state reaction method. The room temperature X-ray diffraction patterns of all the samples indicated the presence of large amount of Bi-(2223) phase along with minor amount of Bi-(2212) phase. The lattice structure of the material belongs to the orthorhombic unit cell. The volume fraction was estimated from the intensities of Bi-(2223) and Bi-(2212) phases. The sample with 5wt% of added Ag shows the higher volume fraction of Bi-(2223) phase formed (86%). The dc electrical resistivity of all the samples decreases as the wt% of Ag increases. Both the onset critical Tc(onset) and zero electrical resistivity Tc(R=0) temperatures were determined from the dc electrical resistivity and ac magnetic susceptibility measurements, which remains within the temperature range 110–113±1K and 101–106±1K respectively. Resistivity data agrees with ac magnetic susceptibility measurements. The critical current density for the 25wt% Ag doped samples increased by three-times compared to the un-doped sample.

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