Formation of the Bi2Sr2CaCu2O8+x superconductor with Mg1-xCuxO inclusions: the phases compatibility and the effect of the preparation route on the material microstructure and properties

P.E. Kazin, Y.D. Tretyakov, V.V. Lennikov, M. Jansen

J. Mater. Chem., v. 11 (1), p. 168-172 (2001)

ABSTRACT. A compatibility between Bi2Sr2CaCu2O8+( (Bi-2212) and MgO was investigated, and the Bi-2212 - Mg1-xCuxO composite materials were obtained and characterised. It was established that Bi-2212 interacts with the MgO powder at 850ЬC producing (Sr,Ca)4-yBi2Oz and the Mg1-xCuxO solid solution, while single crystal MgO is stable against Bi-2212 solid and melt up to 1100ЬC. The Bi-2212 phase is found to coexist with Mg1-xCuxO, where x ( 0.08, at 850ЬC in air. Magnesium oxide contents is estimated to be under 1 mol % in the solid Bi-2212 phase, as well as in the phases formed via the Bi-2212 peritectic decomposition, and in the Bi-Sr-Ca-Cu-O melt. The Bi-2212 - Mg1-xCuxO superconducting composites were prepared by melt-processing using different precursors. The effect of the precursor on the material microstructure and superconducting properties was investigated. The Mg1-xCuxO submicron particles were found to be rather uniformly distributed in the Bi-2212 matrix, their size! depending on the preparation conditions. Application of the nanosize MgO powder as a precursor indicated substantial coarsening of the magnesium oxide particles during the composite processing, the average particle size exceeding 0.2 micron. The composites exhibited higher critical current density as well as its better field stability at enhanced temperatures in comparison with the Bi-2212 samples.

Laboratory of Inorganic Materials Science